Your search keyword '"Tarek Saab"' showing total 113 results

1. Final Report: Science Reach of the SuperCDMS SNOLAB Experiment

Author

Tarek Saab

Published

2022

2. Design and characterization of a phonon-mediated cryogenic particle detector with an eV-scale threshold and 100 keV-scale dynamic range

Author

N. Mirabolfathi, C. W. Fink, Yu Kai Chang, P. Lukens, R. Bunker, B. Nebolsky, Z. Williams, Matt Pyle, N. Mishra, L. Hsu, R. Ren, D. A. Bauer, A. Zaytsev, C. Bathurst, T. Reynolds, R. Mahapatra, Fernando Ponce, G. Spahn, Noah Kurinsky, Ziqing Hong, M. J. Wilson, Enectali Figueroa-Feliciano, M. I. Hollister, R. Chen, H. Meyer Zu Theenhausen, S. L. Watkins, V. Novati, Tarek Saab, N. Mast, and M. Platt

Subjects

Physics, Physics - Instrumentation and Detectors, 010308 nuclear & particles physics, Scattering, Phonon, Dynamic range, Detector, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), 7. Clean energy, 01 natural sciences, Particle detector, High Energy Physics - Experiment, Computational physics, High Energy Physics - Experiment (hep-ex), Ionization, 0103 physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, 010306 general physics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Energy (signal processing), Voltage

Abstract

We present the design and characterization of a cryogenic phonon-sensitive 1-gram Si detector exploiting the Neganov-Trofimov-Luke effect to detect single-charge excitations. This device achieved 2.65(2)~eV phonon energy resolution when operated without a voltage bias across the crystal and a corresponding charge resolution of 0.03 electron-hole pairs at 100~V bias. With a continuous-readout data acquisition system and an offline optimum-filter trigger, we obtain a 9.2~eV threshold with a trigger rate of the order of 20~Hz. The detector's energy scale is calibrated up to 120~keV using an energy estimator based on the pulse area. The high performance of this device allows its application to different fields where excellent energy resolution, low threshold, and large dynamic range are required, including dark matter searches, precision measurements of coherent neutrino-nucleus scattering, and ionization yield measurements., Comment: 17 pages, 12 figures, submitted to PRD

Published

2021

3. Constraints on low-mass, relic dark matter candidates from a surface-operated SuperCDMS single-charge sensitive detector

Author

K. Fouts, W. Rau, D. A. Bauer, S. S. Poudel, N. Chott, M. L. di Vacri, Ruth Lawrence, Fernando Ponce, H. E. Rogers, S. Scorza, Xingbo Zhao, R. Germond, John Wilson, Bruno Serfass, M. H. Kelsey, A. N. Villano, S. M. Oser, C. Stanford, E. Lopez Asamar, A. Sattari, Matthew Fritts, A. J. Mayer, Vuk Mandic, I. J. Arnquist, B. A. Hines, N. Herbert, M. Michaud, H. R. Harris, Tarek Saab, N. Mast, P. Cushman, D. Barker, H. G. Zhang, L. Zheng, E. Zhang, Douglas Wright, Sunil Golwala, Seema Verma, M. Stein, T. Reynolds, To Chin Yu, Betty A. Young, R. A. Cameron, John L. Orrell, D. MacDonell, L. Hsu, Yu Kai Chang, S. L. Watkins, Martin E. Huber, D. Toback, Jodi Cooley, C. Cartaro, P. Pakarha, N. Mirabolfathi, Bedangadas Mohanty, Amy Roberts, A. Li, J. D. Morales Mendoza, M. A. Bowles, R. Chen, D. Jardin, D. W. P. Amaral, B. von Krosigk, A. Jastram, C. W. Fink, Matt Pyle, S. Nagorny, E. Fascione, R. Underwood, H. Coombes, T. Aralis, R. W. Schnee, D. B. MacFarlane, E. Azadbakht, T. Binder, David G. Cerdeño, Ben Loer, Blas Cabrera, R. Mahapatra, R. Calkins, J. Corbett, R. Bhattacharyya, Noah Kurinsky, E. Michielin, J. Winchell, J. K. Nelson, L. Wills, S. J. Yellin, Tsuguo Aramaki, L. V. S. Bezerra, W. A. Page, M. I. Hollister, J. Sander, D. J. Sincavage, M. Ghaith, F. De Brienne, G. Gerbier, R. Bunker, J. Street, E. Reid, Enectali Figueroa-Feliciano, R. Ren, A. Kubik, P. L. Brink, Bernard Sadoulet, A. E. Robinson, V. Iyer, R. Podviianiuk, R. Partridge, P. Lukens, M. Diamond, Ziqing Hong, M. J. Wilson, V. Novati, S. Banik, Eric W. Hoppe, H. Neog, and C. Bathurst

Subjects

Coupling constant, Physics, Physics - Instrumentation and Detectors, Cosmology and Nongalactic Astrophysics (astro-ph.CO), 010308 nuclear & particles physics, Dark matter, FOS: Physical sciences, Charge (physics), Instrumentation and Detectors (physics.ins-det), Electron, Kinetic energy, 01 natural sciences, Dark photon, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), 0103 physical sciences, Absorption (logic), Atomic physics, 010306 general physics, Light dark matter, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

This article presents an analysis and the resulting limits on light dark matter inelastically scattering off of electrons, and on dark photon and axion-like particle absorption, using a second-generation SuperCDMS high-voltage eV-resolution detector. The 0.93 gram Si detector achieved a 3 eV phonon energy resolution; for a detector bias of 100 V, this corresponds to a charge resolution of 3% of a single electron-hole pair. The energy spectrum is reported from a blind analysis with 1.2 gram-days of exposure acquired in an above-ground laboratory. With charge carrier trapping and impact ionization effects incorporated into the dark matter signal models, the dark matter-electron cross section $\bar{\sigma}_{e}$ is constrained for dark matter masses from 0.5--$10^{4} $MeV$/c^{2}$; in the mass range from 1.2--50 eV$/c^{2}$ the dark photon kinetic mixing parameter $\varepsilon$ and the axioelectric coupling constant $g_{ae}$ are constrained. The minimum 90% confidence-level upper limits within the above mentioned mass ranges are $\bar{\sigma}_{e}\,=\,8.7\times10^{-34}$ cm$^{2}$, $\varepsilon\,=\,3.3\times10^{-14}$, and $g_{ae}\,=\,1.0\times10^{-9}$., Comment: 5 pages + title and references, 3 figures and 1 table

Published

2020

4. Constraints on dark photons and axionlike particles from the SuperCDMS Soudan experiment

Author

É. M. Michaud, R. Mahapatra, C. W. Fink, R. Underwood, R. A. Cameron, N. Herbert, John L. Orrell, N. Mirabolfathi, D. MacDonell, Ben Loer, D. A. Bauer, S. S. Poudel, C. Cartaro, W. Baker, H. R. Harris, Fernando Ponce, Bedangadas Mohanty, A. Li, Yu Kai Chang, Betty A. Young, Amy Roberts, A. Jastram, C. Stanford, D. J. Sincavage, D. Jardin, A. N. Villano, P. Lukens, M. Diamond, Matthew Fritts, Vuk Mandic, S. M. Oser, K. Fouts, L. Zheng, J. Street, M. Stein, M. I. Hollister, John Wilson, M. E. Huber, E. Azadbakht, A. Kennedy, Ziqing Hong, Xingbo Zhao, T. Reynolds, H. Coombes, F. De Brienne, G. Gerbier, D. B. MacFarlane, Emily Z. Zhang, H. E. Rogers, J. D. Morales Mendoza, L. V. S. Bezerra, Emanuele Michielin, Blas Cabrera, M. J. Wilson, Ruth Lawrence, P. Cushman, T. Binder, Bruno Serfass, S. Banik, Eric W. Hoppe, S. J. Yellin, Tsuguo Aramaki, D. H. Wright, J. Corbett, Noah Kurinsky, H. Neog, C. Bathurst, M. A. Bowles, R. Germond, W. A. Page, Matt Pyle, W. Rau, V. Iyer, R. Podviianiuk, Kartik Senapati, M. Ghaith, Sunil Golwala, S. Nagorny, B. Cornell, E. Fascione, R. Bunker, J. K. Nelson, A. Kubik, M. L. di Vacri, A. E. Robinson, I. J. Arnquist, R. W. Schnee, L. Hsu, S. Scorza, R. Partridge, Tarek Saab, N. Mast, L. Wills, R. Bhattacharyya, D. Toback, B. von Krosigk, J. Sander, Jodi Cooley, M. H. Kelsey, David G. Cerdeño, S. L. Watkins, P. Pakarha, R. Calkins, Enectali Figueroa-Feliciano, R. Ren, D. Barker, J. Winchell, T. Aralis, Bernard Sadoulet, To Chin Yu, E. Lopez Asamar, Seema Verma, Bruce A. Hines, and P. L. Brink

Subjects

Physics, Range (particle radiation), Photon, 010308 nuclear & particles physics, Dark matter, chemistry.chemical_element, Germanium, Electron, Parameter space, Kinetic energy, 01 natural sciences, Nuclear physics, chemistry, 0103 physical sciences, Particle, 010306 general physics

Abstract

We present an analysis of electron recoils in cryogenic germanium detectors operated during the SuperCDMS Soudan experiment. The data are used to set new constraints on the axioelectric coupling of axionlike particles and the kinetic mixing parameter of dark photons, assuming the respective species constitutes all of the galactic dark matter. This study covers the mass range from 40 eV/c2 to 500 keV/c2 for both candidates, excluding previously untested parameter space for masses below ∼1 keV/c2. For the kinetic mixing of dark photons, values below 10−15 are reached for particle masses around 100 eV/c2; for the axioelectric coupling of axionlike particles, values below 10−12 are reached for particles with masses in the range of a few-hundred eV/c2.

Published

2020

5. Light Dark Matter Search with a High-Resolution Athermal Phonon Detector Operated Above Ground

Author

E. Azadbakht, C. W. Fink, C. Cartaro, R. Mahapatra, M. A. Bowles, S. Banik, Eric W. Hoppe, H. Neog, R. A. Cameron, John L. Orrell, C. Bathurst, R. Calkins, D. A. Bauer, S. S. Poudel, D. MacDonell, V. Novati, M. H. Kelsey, M. Diamond, P. Cushman, P. Lukens, Yu Kai Chang, P. Pakarha, J. K. Nelson, Tarek Saab, N. Mast, L. Wills, J. Winchell, R. Partridge, L. V. S. Bezerra, Fernando Ponce, Ziqing Hong, H. G. Zhang, N. Herbert, H. R. Harris, P. L. Brink, D. W. P. Amaral, L. Zheng, M. J. Wilson, D. J. Sincavage, W. A. Page, Bernard Sadoulet, M. Chaudhuri, Blas Cabrera, J. Street, Martin E. Huber, A. E. Robinson, E. Lopez Asamar, N. Mirabolfathi, É. M. Michaud, Bedangadas Mohanty, A. J. Mayer, A. Li, H. Coombes, Noah Kurinsky, I. J. Arnquist, L. Hsu, J. Sander, T. C. Yu, Sunil Golwala, K. Fouts, A. Jastram, J. D. Morales Mendoza, R. W. Schnee, M. Ghaith, Amy Roberts, D. Toback, Ruth Lawrence, T. Binder, Bruno Serfass, A. Kubik, Matt Pyle, T. Aralis, J. Corbett, J. Camilleri, D. Jardin, Matthew Fritts, H. Meyer Zu Theenhausen, V. K. S. Kashyap, C. Stanford, M. I. Hollister, R. Bhattacharyya, Vuk Mandic, E. Michielin, D. H. Wright, A. Sattari, E. Reid, S. J. Yellin, Tsuguo Aramaki, Enectali Figueroa-Feliciano, R. Ren, F. De Brienne, G. Gerbier, R. Germond, I. Alkhatib, B. A. Hines, S. Zuber, Betty A. Young, Seema Verma, B. von Krosigk, Yu. G. Kolomensky, S. L. Watkins, S. Nagorny, E. Fascione, John Wilson, D. B. MacFarlane, David G. Cerdeño, R. Bunker, Emily Z. Zhang, V. Iyer, R. Chen, R. Podviianiuk, R. Underwood, Ben Loer, Jodi Cooley, A. N. Villano, S. M. Oser, Xingbo Zhao, T. Reynolds, I. Ataee Langroudy, D. Barker, M. L. di Vacri, S. Scorza, W. Rau, N. Chott, and UAM. Departamento de Física Teórica

Subjects

Physics - Instrumentation and Detectors, Cosmology and Nongalactic Astrophysics (astro-ph.CO), Above Grounds, Phonon, Dark matter, General Physics and Astronomy, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, Cryogenic Detectors, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Light Dark Matter, Scattering Cross Section, 0103 physical sciences, Energy Resolutions, Dark Matter Searches, 010306 general physics, Light dark matter, Physics, Dark Matter Particles, 010308 nuclear & particles physics, Scattering, Detector, Resolution (electron density), Física, Instrumentation and Detectors (physics.ins-det), Particle, High Energy Physics::Experiment, Energy (signal processing), Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present limits on spin-independent dark matter-nucleon interactions using a $10.6$ $\mathrm{g}$ Si athermal phonon detector with a baseline energy resolution of $\sigma_E=3.86 \pm 0.04$ $(\mathrm{stat.})^{+0.19}_{-0.00}$ $(\mathrm{syst.})$ $\mathrm{eV}$. This exclusion analysis sets the most stringent dark matter-nucleon scattering cross-section limits achieved by a cryogenic detector for dark matter particle masses from $93$ to $140$ $\mathrm{MeV}/c^2$, with a raw exposure of $9.9$ $\mathrm{g}\cdot\mathrm{d}$ acquired at an above-ground facility. This work illustrates the scientific potential of detectors with athermal phonon sensors with eV-scale energy resolution for future dark matter searches., Comment: 7 pages, 4 figures, this version includes ancillary files from official data release

Published

2020

6. Erratum: First Dark Matter Constraints from a SuperCDMS Single-Charge Sensitive Detector [Phys. Rev. Lett. 121 , 051301 (2018)]

Author

Betty A. Young, C. Cartaro, A. Kennedy, A. Phipps, Blas Cabrera, Chitrasen Jena, E. Fascione, D. H. Wright, Jodi Cooley, J. V. Leyva, Noah Kurinsky, R. Mahapatra, M. H. Kelsey, W. Rau, T. Binder, C. Stanford, Xingbo Zhao, E. Azadbakht, S. Scorza, E. H. Miller, P. L. Brink, Danielle Speller, J. Street, Amy Roberts, S. J. Yellin, Tsuguo Aramaki, P. Di Stefano, A. N. Villano, Matthew Fritts, S. M. Oser, R. Calkins, B. von Krosigk, Vuk Mandic, H. E. Rogers, R. Agnese, H. R. Harris, M. A. Bowles, T. Reynolds, H. Qiu, A. E. Robinson, V. Iyer, P. Lukens, W. A. Page, C. W. Fink, J. Sander, M. Stein, Martin E. Huber, Bruno Serfass, S. L. Watkins, John Wilson, D. Barker, I. J. Arnquist, D. Jardin, D. A. Bauer, S. Banik, Eric W. Hoppe, J. K. Nelson, S. S. Poudel, W. Baker, B. Cornell, T. Doughty, Fernando Ponce, A. Reisetter, L. Hsu, Ziqing Hong, J. D. Morales Mendoza, John L. Orrell, J. So, X. Zhang, N. Mirabolfathi, D. MacDonell, R. Underwood, Bedangadas Mohanty, A. Scarff, D. Toback, Tarek Saab, N. Mast, G. Gerbier, M. J. Wilson, Ben Loer, Hiromasa Tanaka, R. K. Romani, M. Pepin, David G. Cerdeño, T. Aralis, Matt Pyle, M. Ghaith, A. Kubik, Kartik Senapati, R. Partridge, Sunil Golwala, Yen-Yung Chang, J. Winchell, Bernard Sadoulet, Enectali Figueroa-Feliciano, E. Lopez Asamar, Ruth Lawrence, R. Germond, R. Bunker, R. W. Schnee, and P. Cushman

Subjects

Nuclear physics, Physics, Detector, Dark matter, General Physics and Astronomy, Charge (physics)

Abstract

This corrects the article DOI: 10.1103/PhysRevLett.121.051301.

Published

2019

7. Nuclear-recoil energy scale in CDMS II silicon dark-matter detectors

Author

X. Zhao, T. Binder, G.L. Godfrey, J. D. Morales Mendoza, R. Underwood, Martin E. Huber, Tarek Saab, K. Schneck, N. Mast, E. H. Miller, M. Pepin, R. Germond, Yi Chen, B. Welliver, J. Hall, A. W. Borgland, H. R. Harris, W. A. Page, Amy Roberts, Yu Kai Chang, S. Fallows, A. N. Villano, Betty A. Young, M. Ghaith, A. Kubik, R. W. Schnee, V. Iyer, S. M. Oser, R. Basu Thakur, Miguel Daal, H. A. Tanaka, S. J. Yellin, Tsuguo Aramaki, A. Phipps, Hassan Chagani, David G. Cerdeño, K. L. Page, T. Doughty, P. Lukens, S. Banik, R. Partridge, Robert A. Moffatt, Kevin A. McCarthy, John Wilson, B. Cornell, R. Calkins, E. Fascione, Sunil Golwala, P. Redl, Ziqing Hong, P. L. Brink, M. Stein, David Moore, M. Peñalver Martinez, Adam Anderson, M. J. Wilson, E. M. Dragowsky, J. K. Nelson, Donald J. Holmgren, C. Cartaro, W. Rau, David O. Caldwell, H. E. Rogers, M. A. Bowles, P. Cushman, J. Sander, S. Scorza, Danielle Speller, H. Qiu, P. Di Stefano, R. Agnese, J. Street, D. Balakishiyeva, L. Hsu, D. Toback, Matt Pyle, Bruno Serfass, Kartik Senapati, D. Jardin, R. Mahapatra, A. Leder, R. Bunker, A. Reisetter, D. MacDonell, C. Jena, G. Gerbier, L. Esteban, D. Barker, Jodi Cooley, M. H. Kelsey, D. A. Bauer, S. S. Poudel, W. Baker, J. J. Yen, Matthew Fritts, Vuk Mandic, X. Zhang, N. Mirabolfathi, Bedangadas Mohanty, A. Jastram, A. Kennedy, Blas Cabrera, Enectali Figueroa-Feliciano, E. Lopez Asamar, Noah Kurinsky, B. von Krosigk, Bernard Sadoulet, A. E. Robinson, and Douglas Wright

Subjects

Nuclear and High Energy Physics, Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, Dark matter, FOS: Physical sciences, Electron, 01 natural sciences, 7. Clean energy, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Recoil, Ionization, 0103 physical sciences, Neutron, Physics::Atomic Physics, 010306 general physics, Nuclear Experiment, Instrumentation and Methods for Astrophysics (astro-ph.IM), Instrumentation, Physics, Elastic scattering, 010308 nuclear & particles physics, Instrumentation and Detectors (physics.ins-det), 3. Good health, Semiconductor detector, Cryogenic Dark Matter Search, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Cryogenic Dark Matter Search (CDMS II) experiment aims to detect dark matter particles that elastically scatter from nuclei in semiconductor detectors. The resulting nuclear-recoil energy depositions are detected by ionization and phonon sensors. Neutrons produce a similar spectrum of low-energy nuclear recoils in such detectors, while most other backgrounds produce electron recoils. The absolute energy scale for nuclear recoils is necessary to interpret results correctly. The energy scale can be determined in CDMS II silicon detectors using neutrons incident from a broad-spectrum $^{252}$Cf source, taking advantage of a prominent resonance in the neutron elastic scattering cross section of silicon at a recoil (neutron) energy near 20 (182) keV. Results indicate that the phonon collection efficiency for nuclear recoils is $4.8^{+0.7}_{-0.9}$% lower than for electron recoils of the same energy. Comparisons of the ionization signals for nuclear recoils to those measured previously by other groups at higher electric fields indicate that the ionization collection efficiency for CDMS II silicon detectors operated at $\sim$4 V/cm is consistent with 100% for nuclear recoils below 20 keV and gradually decreases for larger energies to $\sim$75% at 100 keV. The impact of these measurements on previously published CDMS II silicon results is small., Comment: 22 pages, 17 figures, 1 table, 1 appendix

Published

2018

8. Energy loss due to defect formation from 206Pb recoils in SuperCDMS germanium detectors

Author

I. J. Arnquist, Steve Yellin, D. Toback, Dennis Wright, R. Mahapatra, Nicholas Mast, Andrew Scarff, Todd Doughty, Vijay Iyer, Lauren Hsu, Allison Kennedy, Betty A. Young, Danika MacDonell, Amy Roberts, Dan Jardin, R. Germond, Vuk Mandic, Matt Pyle, P. Cushman, Jorge Morales, A. N. Villano, Dan Bauer, S. M. Oser, John L. Orrell, Matthew Wilson, Kartik Senapati, Francisco Ponce, Alan Robinson, Ryan Underwood, Concetta Cartaro, Belina von Krosigk, Hang Qiu, J. Street, William Page, Brett Cornell, Jodi Cooley, S. L. Watkins, Ben Loer, Andrew Kubik, M. Pepin, Eric W. Hoppe, Hirohisa Tanaka, Michael Bowles, R. Calkins, J. Sander, E. H. Miller, David G. Cerdeño, Angela Reisetter, Xiaohe Zhang, Rusty Harris, T. Aralis, Samir Banik, Jon Wilson, Paul Brink, Eleanor Fascione, N. Mirabolfathi, Bedangadas Mohanty, Wolfgang Rau, Matthew Stein, Blas Cabrera, Richard Lawrence, Elias Lopez-Asamar, Sudip Poudel, Matt Fritts, Bruno Serfass, Silvia Scorza, Chitrasen Jena, Noah Kurinsky, Elham Azadbakht, R. Bunker, Muad Ghaith, D'Ann Barker, Bernard Sadoulet, Hannah Rogers, Philippe Di Stefano, R. W. Schnee, Tyler Reynolds, Sunil Golwala, Yen-Yung Chang, Tom Ren, Jack Nelson, William Baker, R. Partridge, Pat Lukens, Martin E. Huber, Danielle Speller, Ziqing Hong, Gilles Gerbier, C. W. Fink, Michael Kelsey, Tali Figueroa, Robert Agnese, Joshua Winchell, Xuji Zhao, Tsuguo Aramaki, Tarek Saab, and Thomas Binder

Subjects

Energy loss, Cosmology and Nongalactic Astrophysics (astro-ph.CO), Physics - Instrumentation and Detectors, Physics and Astronomy (miscellaneous), Dark matter, FOS: Physical sciences, chemistry.chemical_element, Germanium, Applied Physics (physics.app-ph), 01 natural sciences, 7. Clean energy, Nuclear physics, 0103 physical sciences, 010306 general physics, Nuclear Experiment, Physics, 010308 nuclear & particles physics, Detector, Instrumentation and Detectors (physics.ins-det), Physics - Applied Physics, Threshold energy, chemistry, Frenkel defect, Cryogenic Dark Matter Search, Energy (signal processing), Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The Super Cryogenic Dark Matter Search experiment (SuperCDMS) at the Soudan Underground Laboratory studied energy loss associated with Frenkel defect formation in germanium crystals at mK temperatures using in situ $^{210}$Pb sources. We examine the spectrum of $^{206}$Pb nuclear recoils near its expected 103 keV endpoint energy and determine an energy loss of $\left(6.08\pm0.18\right)$ %, which we attribute to defect formation. From this result and using TRIM simulations, we extract the first experimentally determined average displacement threshold energy of $\left(19.7^{+0.6}_{-0.5}\right)$ eV for germanium. This has implications for the analysis thresholds of future germanium-based dark matter searches., 4 Figures, Two data files, One data release description file

Published

2018

9. Production Rate Measurement of Tritium and Other Cosmogenic Isotopes in Germanium with CDMSlite

Author

H. R. Harris, B. Loer, B. Serfass, W. A. Page, S. Scorza, E. Azadbakht, David G. Cerdeño, John L. Orrell, D. MacDonell, C. Cartaro, M. A. Bowles, Enectali Figueroa-Feliciano, R. Calkins, R. Ren, N. Mirabolfathi, Yu Kai Chang, A. N. Villano, S. M. Oser, Jodi Cooley, John Wilson, B. von Krosigk, G. Gerbier, Xingbo Zhao, T. Reynolds, Betty A. Young, J. Winchell, S. J. Yellin, Tsuguo Aramaki, H. E. Rogers, M. Ghaith, A. Kubik, S. L. Watkins, P. Cushman, J. D. Morales Mendoza, A. Kennedy, Blas Cabrera, Chitrasen Jena, H. A. Tanaka, P. L. Brink, Bernard Sadoulet, A. Scarff, H. Qiu, A. E. Robinson, R. Partridge, Matt Pyle, E. Lopez Asamar, Noah Kurinsky, B. Cornell, R. Underwood, D. Barker, T. Aralis, Kartik Senapati, D. Jardin, R. Agnese, Danielle Speller, I. J. Arnquist, Ruth Lawrence, Tarek Saab, N. Mast, P. Lukens, L. Hsu, T. Binder, Sunil Golwala, D. Toback, M. H. Kelsey, D. H. Wright, Ziqing Hong, R. Bunker, M. Stein, C. W. Fink, M. J. Wilson, S. Banik, Eric W. Hoppe, A. Reisetter, Martin E. Huber, W. Rau, Matthew Fritts, R. Germond, Vuk Mandic, J. K. Nelson, J. Sander, R. W. Schnee, M. Pepin, X. Zhang, Bedangadas Mohanty, A. Jastram, D. A. Bauer, S. S. Poudel, W. Baker, Fernando Ponce, E. Fascione, Amy Roberts, T. Doughty, J. Street, R. Mahapatra, V. Iyer, and E. H. Miller

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), Physics - Instrumentation and Detectors, Dark matter, chemistry.chemical_element, FOS: Physical sciences, Germanium, Radiation, 7. Clean energy, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Ionization, 0103 physical sciences, Nuclear Experiment (nucl-ex), 010303 astronomy & astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Nuclear Experiment, Physics, Radionuclide, Isotope, 010308 nuclear & particles physics, Astronomy and Astrophysics, Instrumentation and Detectors (physics.ins-det), Semiconductor detector, chemistry, Tritium, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Future direct searches for low-mass dark matter particles with germanium detectors, such as SuperCDMS SNOLAB, are expected to be limited by backgrounds from radioactive isotopes activated by cosmogenic radiation inside the germanium. There are limited experimental data available to constrain production rates and a large spread of theoretical predictions. We examine the calculation of expected production rates, and analyze data from the second run of the CDMS low ionization threshold experiment (CDMSlite) to estimate the rates for several isotopes. We model the measured CDMSlite spectrum and fit for contributions from tritium and other isotopes. Using the knowledge of the detector history, these results are converted to cosmogenic production rates at sea level. The production rates in atoms/(kg$\cdot$day) are 74$\pm$9 for $^3$H, 1.5$\pm$0.7 for $^{55}$Fe, 17$\pm$5 for $^{65}$Zn, and 30$\pm$18 for $^{68}$Ge., 14 pages, 10 figures, 5 tables. v5 contains the extended data release (and documentation) of the CDMSlite Run 2 data as ancillary files

Published

2018

10. First Dark Matter Constraints from a SuperCDMS Single-Charge Sensitive Detector

Author

C. Stanford, A. N. Villano, S. M. Oser, T. Reynolds, John L. Orrell, R. Underwood, D. MacDonell, B. Cornell, H. R. Harris, J. Street, W. A. Page, John Wilson, A. Scarff, C. Cartaro, P. L. Brink, Hiromasa Tanaka, Ruth Lawrence, E. Fascione, M. Pepin, N. Mirabolfathi, M. Ghaith, A. Kubik, D. Jardin, D. A. Bauer, J. D. Morales Mendoza, Sunil Golwala, S. S. Poudel, T. Doughty, W. Baker, Xingbo Zhao, Tarek Saab, N. Mast, S. Scorza, C. W. Fink, J. K. Nelson, R. Mahapatra, Fernando Ponce, R. Germond, R. W. Schnee, X. Zhang, M. H. Kelsey, B. Loer, B. Serfass, J. V. Leyva, M. Stein, D. Barker, Bedangadas Mohanty, J. Sander, T. Aralis, Amy Roberts, R. Agnese, Martin E. Huber, Betty A. Young, David G. Cerdeño, B. von Krosigk, E. H. Miller, P. Cushman, D. H. Wright, A. Phipps, Yu Kai Chang, R. K. Romani, Jodi Cooley, M. A. Bowles, S. Banik, Eric W. Hoppe, A. Kennedy, Matt Pyle, Blas Cabrera, Chitrasen Jena, T. Binder, S. J. Yellin, Tsuguo Aramaki, Matthew Fritts, Kartik Senapati, E. Azadbakht, Noah Kurinsky, Vuk Mandic, Enectali Figueroa-Feliciano, R. Partridge, R. Calkins, E. Lopez Asamar, V. Iyer, S. L. Watkins, J. Winchell, Bernard Sadoulet, A. E. Robinson, Danielle Speller, P. Lukens, P. Di Stefano, Ziqing Hong, M. J. Wilson, H. E. Rogers, H. Qiu, R. Bunker, A. Reisetter, W. Rau, J. So, G. Gerbier, I. J. Arnquist, L. Hsu, and D. Toback

Subjects

Physics, Photon, Cosmology and Nongalactic Astrophysics (astro-ph.CO), Physics - Instrumentation and Detectors, 010308 nuclear & particles physics, Detector, Dark matter, General Physics and Astronomy, FOS: Physical sciences, Charge (physics), Instrumentation and Detectors (physics.ins-det), Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, 7. Clean energy, Dark photon, Semiconductor detector, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Excited state, 0103 physical sciences, 010306 general physics, Absorption (electromagnetic radiation), Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present the first limits on inelastic electron-scattering dark matter and dark photon absorption using a prototype SuperCDMS detector having a charge resolution of 0.1 electron-hole pairs (CDMS HVeV, a 0.93 gram CDMS HV device). These electron-recoil limits significantly improve experimental constraints on dark matter particles with masses as low as 1 MeV/$\mathrm{c^2}$. We demonstrate a sensitivity to dark photons competitive with other leading approaches but using substantially less exposure (0.49 gram days). These results demonstrate the scientific potential of phonon-mediated semiconductor detectors that are sensitive to single electronic excitations., 6 pages + title and references, 6 figures, includes erratum submitted to PRL and data release

Published

2018

11. Results from the Super Cryogenic Dark Matter Search Experiment at Soudan

Author

Tarek Saab, N. Mast, A. N. Villano, S. M. Oser, P. L. Brink, C. Cartaro, T. Reynolds, H. R. Harris, D. A. Bauer, W. A. Page, B. Welliver, S. S. Poudel, W. Baker, N. Mirabolfathi, Enectali Figueroa-Feliciano, R. Partridge, A. Kennedy, J. J. Yen, Jodi Cooley, Blas Cabrera, Betty A. Young, B. Cornell, Chitrasen Jena, D. H. Wright, D. Balakishiyeva, A. Phipps, S. Banik, Eric W. Hoppe, J. D. Morales Mendoza, Noah Kurinsky, Xingbo Zhao, A. E. Robinson, Yu Kai Chang, T. Binder, S. Scorza, Matthew Fritts, D. Barker, Bernard Sadoulet, Vuk Mandic, Sunil Golwala, I. J. Arnquist, G. Godfrey, Amy Roberts, P. Di Stefano, Martin E. Huber, M. H. Kelsey, S. J. Yellin, Tsuguo Aramaki, D. Jardin, John Wilson, M. Stein, D. O. Caldwell, L. Hsu, P. Cushman, E. Lopez Asamar, R. Agnese, R. Underwood, D. Toback, J. Hall, Miguel Daal, J. K. Nelson, X. Zhang, M. Peñalver Martinez, Bedangadas Mohanty, Matt Pyle, M. A. Bowles, B. von Krosigk, A. Jastram, Kartik Senapati, J. Sander, Hiromasa Tanaka, John L. Orrell, D. MacDonell, K. Schneck, E. Fascione, M. Pepin, V. Iyer, R. W. Schnee, R. Basu Thakur, K. L. Page, R. Calkins, T. Doughty, H. E. Rogers, H. Qiu, P. Redl, B. Loer, B. Serfass, E. H. Miller, R. Germond, Yi Chen, P. Lukens, Ziqing Hong, M. J. Wilson, Danielle Speller, M. Ghaith, A. Kubik, R. Mahapatra, J. Street, David G. Cerdeño, G. Gerbier, R. Bunker, A. Reisetter, and W. Rau

Subjects

Physics, Particle physics, 010308 nuclear & particles physics, Weakly interacting massive particles, 0103 physical sciences, General Physics and Astronomy, Cryogenic Dark Matter Search, 010306 general physics, 01 natural sciences, Event (particle physics)

Abstract

We report the result of a blinded search for weakly interacting massive particles (WIMPs) using the majority of the SuperCDMS Soudan data set. With an exposure of 1690 kg d, a single candidate event is observed, consistent with expected backgrounds. This analysis (combined with previous Ge results) sets an upper limit on the spin-independent WIMP–nucleon cross section of 1.4×10−44 (1.0×10−44) cm2 at 46 GeV/c2. These results set the strongest limits for WIMP–germanium-nucleus interactions for masses >12 GeV/c2.

Published

2018

12. Experimental Concept for a Precision Measurement of Nuclear Recoil Ionization Yields for Low Mass WIMP Searches

Author

Enectali Figueroa-Feliciano and Tarek Saab

Subjects

Physics, Physics::Instrumentation and Detectors, 010308 nuclear & particles physics, Dark matter, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, Nuclear physics, Recoil, WIMP, Yield (chemistry), Weakly interacting massive particles, Ionization, 0103 physical sciences, Neutron source, General Materials Science, Physics::Atomic Physics, 010306 general physics, Low Mass

Abstract

Understanding the response of dark matter detectors at the lowest recoil energies is important for correctly interpreting data from current experiments or predicting the sensitivity of future experiments to low mass weakly interacting massive particles. In particular, the ionization yield is essential for determining the correct recoil energy of candidate nuclear recoil events; however, few measurements in cryogenic crystals exist below 1 keV. Using the voltage-assisted calorimetric ionization detection technique with a mono-energetic neutron source, we show that it is possible to determine the ionization yield in cryogenic crystals down to an energy to 100 eV. This measurement will also determine the statistics of ionization production at these low energies.

Published

2016

13. Projected sensitivity of the SuperCDMS SNOLAB experiment

Author

Xingbo Zhao, C. Cartaro, M. A. Bowles, R. Agnese, A. N. Villano, S. M. Oser, B. Welliver, John L. Orrell, Jodi Cooley, H. R. Harris, W. A. Page, David G. Cerdeño, G. Gerbier, Tarek Saab, N. Mast, I. J. Arnquist, Sunil Golwala, M. H. Kelsey, R. Underwood, D. Jardin, John Wilson, Bernard Sadoulet, L. Hsu, Hiromasa Tanaka, P. Di Stefano, M. Pepin, E. Lopez Asamar, N. Mirabolfathi, D. Toback, P. Redl, R. Basu Thakur, K. L. Page, R. Mahapatra, A. Leder, R. Calkins, H. E. Rogers, B. Cornell, Donald J. Holmgren, H. Qiu, A. W. Borgland, J. Street, D. Barker, J. D. Morales Mendoza, Danielle Speller, R. Bunker, J. J. Yen, S. Fallows, A. Reisetter, S. J. Yellin, Tsuguo Aramaki, M. Ghaith, Matt Pyle, W. Rau, V. Iyer, T. Doughty, A. Kubik, D. A. Bauer, Amy Roberts, S. S. Poudel, Enectali Figueroa-Feliciano, W. Baker, J. Sander, L. Esteban, P. Lukens, H. Chagani, Ziqing Hong, R. Partridge, Adam Anderson, Matthew Fritts, A. E. Robinson, Vuk Mandic, Yi Chen, Betty A. Young, T. Hofer, A. Phipps, M. Stein, X. Zhang, Miguel Daal, Robert A. Moffatt, A. Jastram, P. L. Brink, David O. Caldwell, D. H. Wright, Eric W. Hoppe, A. Kennedy, Blas Cabrera, Noah Kurinsky, K. Schneck, B. von Krosigk, B. Loer, B. Serfass, R. W. Schnee, P. Cushman, G.L. Godfrey, Martin E. Huber, and J. Hall

Subjects

Particle physics, Cosmology and Nongalactic Astrophysics (astro-ph.CO), Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, Solar neutrino, Dark matter, FOS: Physical sciences, Atomic, 01 natural sciences, 7. Clean energy, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Particle and Plasma Physics, Recoil, 0103 physical sciences, Nuclear, 010306 general physics, physics.ins-det, Physics, Quantum Physics, hep-ex, 010308 nuclear & particles physics, Detector, Molecular, Instrumentation and Detectors (physics.ins-det), Nuclear & Particles Physics, Orders of magnitude (time), Weakly interacting massive particles, astro-ph.CO, High Energy Physics::Experiment, Cryogenic Dark Matter Search, Neutrino, Astronomical and Space Sciences, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

SuperCDMS SNOLAB will be a next-generation experiment aimed at directly detecting low-mass (< 10 GeV/c$^2$) particles that may constitute dark matter by using cryogenic detectors of two types (HV and iZIP) and two target materials (germanium and silicon). The experiment is being designed with an initial sensitivity to nuclear recoil cross sections ~ 1 x 10$^{-43}$ cm$^2$ for a dark matter particle mass of 1 GeV/c$^2$, and with capacity to continue exploration to both smaller masses and better sensitivities. The phonon sensitivity of the HV detectors will be sufficient to detect nuclear recoils from sub-GeV dark matter. A detailed calibration of the detector response to low energy recoils will be needed to optimize running conditions of the HV detectors and to interpret their data for dark matter searches. Low-activity shielding, and the depth of SNOLAB, will reduce most backgrounds, but cosmogenically produced $^{3}$H and naturally occurring $^{32}$Si will be present in the detectors at some level. Even if these backgrounds are x10 higher than expected, the science reach of the HV detectors would be over three orders of magnitude beyond current results for a dark matter mass of 1 GeV/c$^2$. The iZIP detectors are relatively insensitive to variations in detector response and backgrounds, and will provide better sensitivity for dark matter particle masses (> 5 GeV/c$^2$). The mix of detector types (HV and iZIP), and targets (germanium and silicon), planned for the experiment, as well as flexibility in how the detectors are operated, will allow us to maximize the low-mass reach, and understand the backgrounds that the experiment will encounter. Upgrades to the experiment, perhaps with a variety of ultra-low-background cryogenic detectors, will extend dark matter sensitivity down to the "neutrino floor", where coherent scatters of solar neutrinos become a limiting background., SuperCDMS SNOLAB Projected sensitivity reach

Published

2017

14. Geant4 Simulations of the SuperCDMS iZIP Detector Charge Carrier Propagation and FET Readout

Author

Tarek Saab, M. Asai, Blas Cabrera, R. Agnese, P. Redl, D. Brandt, S. Leman, Kevin A. McCarthy, and D. Wright

Subjects

Physics, Physics::Instrumentation and Detectors, business.industry, Phonon, Detector, Cat's-whisker detector, Electron, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Computational physics, Condensed Matter::Materials Science, Optics, Electric field, Weakly interacting massive particles, General Materials Science, Charge carrier, business, Voltage

Abstract

The SuperCDMS experiment aims to directly detect dark matter particles called WIMPs (weakly interacting massive particles). The detectors measure phonon and ionization energy due to nuclear and electron recoils from incident particles. The SuperCDMS Detector Monte Carlo group uses Geant4 to simulate electron-hole pairs ( $$e^-/h^+$$ ) and low temperature phonons. We use these simulations in order to study energy deposition in the detectors. Phonons and electron-hole pairs are tracked in a crystal detector. Because of the band structure of the crystals, the electrons undergo oblique propagation. The charge electrodes on each side of the detector are biased at different voltages while the phonon sensors are grounded. This creates a nearly uniform electric field through the bulk of the detector, with a complex shape near the surfaces. The electric field is calculated from interpolating on a tetrahedral mesh. The resulting TES phonon readout, as well as the FET charge readout are simulated. To calculate the FET readout, the Shockley-Ramo theorem is applied to simulate the current in the FET. The goal of this paper is to describe the theory and implementation of calculating the electric field, performing the charge carrier propagation, and simulating the FET readout of the SuperCDMS detectors.

Published

2014

15. New Results from the Search for Low-Mass Weakly Interacting Massive Particles with the CDMS Low Ionization Threshold Experiment

Author

B. Welliver, B. Shank, Matt Pyle, J. J. Yen, D. Barker, B. Loer, J. Hall, T. Doughty, B. Serfass, G. L. Godfrey, D. Jardin, R. Agnese, R. Basu Thakur, K. L. Page, Jodi Cooley, R. Calkins, H. R. Harris, N. Mirabolfathi, W. A. Page, Yi Chen, David G. Cerdeño, T. Hofer, D. Balakishiyeva, Y. Ricci, L. Esteban, R. Bunker, J. Zhang, J. D. Morales Mendoza, A. Jastram, M. Asai, A. Reisetter, Miguel Daal, S. Fallows, W. Rau, H. E. Rogers, P. Redl, Sunil Golwala, A. Kennedy, Martin E. Huber, D. A. Bauer, S. J. Yellin, Tsuguo Aramaki, H. Qiu, W. Baker, John Wilson, Blas Cabrera, Tarek Saab, N. Mast, Bernard Sadoulet, Robert A. Moffatt, E. Lopez Asamar, Amy Roberts, A. Borgland, Vuk Mandic, O. Kamaev, K. Prasad, A. Leder, B. Cornell, S. Upadhyayula, R. Underwood, J. Billard, M. Pepin, R. Partridge, Enectali Figueroa-Feliciano, R. W. Schnee, P. Cushman, M. H. Kelsey, Betty A. Young, A. Phipps, J. Sander, L. Hsu, D. Toback, M. Ghaith, P. Lukens, B. Kara, Adam Anderson, R. Mahapatra, H. Chagani, Donald J. Holmgren, Danielle Speller, M. A. Bowles, K. Schneck, D. H. Wright, P. L. Brink, David O. Caldwell, A. N. Villano, S. M. Oser, S. Scorza, and P. Di Stefano

Subjects

Physics, Particle physics, Physics::Instrumentation and Detectors, 010308 nuclear & particles physics, Phonon, Astrophysics::Instrumentation and Methods for Astrophysics, General Physics and Astronomy, Astrophysics::Cosmology and Extragalactic Astrophysics, Electron, Parameter space, 01 natural sciences, Semiconductor detector, Nuclear physics, WIMP, Weakly interacting massive particles, Ionization, 0103 physical sciences, High Energy Physics::Experiment, Nuclear Experiment, 010306 general physics, Low Mass

Abstract

© 2016 American Physical Society. The CDMS low ionization threshold experiment (CDMSlite) uses cryogenic germanium detectors operated at a relatively high bias voltage to amplify the phonon signal in the search for weakly interacting massive particles (WIMPs). Results are presented from the second CDMSlite run with an exposure of 70 kg day, which reached an energy threshold for electron recoils as low as 56 eV. A fiducialization cut reduces backgrounds below those previously reported by CDMSlite. New parameter space for the WIMP-nucleon spin-independent cross section is excluded for WIMP masses between 1.6 and 5.5 GeV/c2.

Published

2016

16. Micro-X, the TES X-ray Imaging Rocket: First Year Progress

Author

Kathryn A. Flanagan, R. L. Kelley, Peter J. Serlemitsos, Robert Petre, M. Loewenstein, D. McCammon, D. Najjar, Gregory V. Brown, Frederick S. Porter, Joseph S. Adams, Massimiliano Galeazzi, K. Yoha, John M. Rutherford, William B. Doriese, Tarek Saab, Kent D. Irwin, S. Deiker, Joel N. Ullom, R. Smith, D. Martinez-Galarce, Caroline A. Kilbourne, P. Wikus, Kevin R. Boyce, Gene C. Hilton, Simon R. Bandler, Carl D. Reintsema, Steven E. Kissel, T. R. Kallman, Marshall W. Bautz, R. F. Mushotzky, Steven W. Leman, Una Hwang, Alan M. Levine, Y. Bagdasarova, Norbert S. Schulz, and Enectali Figueroa-Feliciano

Subjects

Physics, Physics::Instrumentation and Detectors, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, Superconducting magnet, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, SQUID, Optics, Sensor array, Operating temperature, law, Electromagnetic shielding, Puppis A, Electrical and Electronic Engineering, Transition edge sensor, business

Abstract

Micro-X is a sounding-rocket experiment that will combine a transition edge sensor (TES) microcalorimeter array with an imaging mirror to obtain high-spectral-resolution images of astronomical X-ray sources. The instrument's resolution across the 0.3-2.5 keV band will be 2 eV. The first flight will target the region of the Bright Eastern Knot of the Puppis A supernova remnant and is slated for January 2011. The obtained high-resolution X-ray spectra will be used to ascertain the temperature and ionization state of the X-ray-emitting gas and to determine its velocity structure. The TES array is read out by a time-division superconducting quantum interference device (SQUID) multiplexing system. The detector front end assembly and the SQUID multiplexing circuit are cooled to the operating temperature of 50 mK with an adiabatic demagnetization refrigerator (ADR). The design of this refrigerator is tailored to the requirements of rocket flight. Stable operation of the TES array close to the ADR magnet will be achieved with a magnetic shielding system, which will be based on a combination of a bucking coil and high-permeability and superconducting shield materials to cancel out residual fields. We describe our progress in developing the Micro-X instrument.

Published

2009

17. Design and performance of a modular low-radioactivity readout system for cryogenic detectors in the CDMS experiment

Author

G. Smith, M. Kurylowicz, John M. Martinis, Peter D. Barnes, Simon D. M. White, N. Mirabolfathi, Sunil Golwala, Bernard Sadoulet, Blas Cabrera, P. Meunier, Martin E. Huber, D. S. Akerib, R. J. Gaitskell, Vuk Mandic, R. M. Clarke, R. W. Schnee, P. L. Brink, K. M. Sundqvist, T. A. Shutt, M. Perillo-Isaac, Tarek Saab, W. K. Stockwell, Sae Woo Nam, and D. N. Seitz

Subjects

Physics, Nuclear and High Energy Physics, Physics::Instrumentation and Detectors, business.industry, Detector, Integrated circuit, Cryogenics, Modular design, Noise (electronics), Design for manufacturability, law.invention, law, visual_art, Electronic component, visual_art.visual_art_medium, Optoelectronics, Cryogenic Dark Matter Search, business, Instrumentation

Abstract

The Cryogenic Dark Matter Search (CDMS) experiment employs ultra-cold solid-state detectors to search for rare events resulting from WIMP-nucleus scattering. An innovative detector packaging and readout system has been developed to meet the unusual combination of requirements for: low temperature, low radioactivity, low energy threshold, and large channel count. Features include use of materials with low radioactivity such as multi-layer KAPTON laminates for circuit boards; immunity to microphonic noise via a vacuum coaxial wiring design, manufacturability, and modularity. The detector readout design had to accommodate various electronic components which have to be operated in close proximity to the detector as well maintaining separate individual temperatures (ranging from 600 mK to 150 K) in order to achieve optimal noise performance. The paper will describe the general electrical, thermal, and mechanical designs of the CDMS readout system, as well as presenting the theoretical and measured performance of the detector readout channels.

Published

2008

18. A SURVEY OF DARK MATTER DIRECT DETECTION SEARCHES AND TECHNIQUES AT THE BEGINNING OF THE 21ST CENTURY

Author

Tarek Saab

Subjects

Physics, Nuclear and High Energy Physics, Focus (computing), WIMP, Dark matter, General Physics and Astronomy, Astronomy and Astrophysics, Astrophysics

Abstract

It is now well established and accepted that roughly 25% of the total mass-energy density of the Universe is in the form of non-relativistic particles. That these particles, referred to as Dark Matter, have remained a mystery has served as motivation for the design and implementation of increasingly ingenious and far reaching experiments in an attempt to identify and understand them. This paper will review various ongoing Dark Matter searches with focus on the variety of techniques and implementation used to both detect the rare Dark Matter interactions as well as reject the vast number of background events.

Published

2008

19. Modeling of TES X-Ray Microcalorimeters with a Novel Absorber Design

Author

Stephen J. Smith, Jay Chervenak, R. L. Kelley, Frederick S. Porter, F. M. Finkbeiner, Tarek Saab, Caroline A. Kilbourne, Enectali Figueroa-Feliciano, Mark A. Lindeman, Ari-David Brown, Simon R. Bandler, Regis P. Brekosky, John E. Sadleir, and Naoko Iyomoto

Subjects

Physics, X-ray spectroscopy, business.industry, Resolution (electron density), chemistry.chemical_element, Condensed Matter Physics, Noise (electronics), Atomic and Molecular Physics, and Optics, Spectral line, Bismuth, Optics, chemistry, General Materials Science, Quantum efficiency, business, Electrical impedance, Energy (signal processing)

Abstract

We have successfully modeled our new TES (transition-edge sensor) X-ray microcalorimeters with a novel X-ray absorber design that is suitable for close-packed array with high quantum efficiency. We have determined device parameters that reproduce complex impedance curves and noise spectra throughout the transition. Observed pulse height, decay time and baseline energy resolution were in good agreement with simulated results using the same parameters.

Published

2008

20. Studies of Thermal Diffusion in Planar Absorber Designs for the Micro-X Rocket

Author

R. L. Kelley, Naoko Iyomoto, Tarek Saab, Caroline A. Kilbourne, Stephen J. Smith, Frederick S. Porter, Enectali Figueroa-Feliciano, P. M. Rivera-Ortiz, and Simon R. Bandler

Subjects

Physics, High energy, business.product_category, Photon, Pixel, business.industry, Resolution (electron density), Condensed Matter Physics, Thermal diffusivity, Atomic and Molecular Physics, and Optics, Optics, Planar, Rocket, General Materials Science, Diffusion (business), business

Abstract

We have studied a potential design for a transition-edge sensor (TES) microcalorimeter array for the Micro-X High Resolution Microcalorimeter X-ray Imaging Rocket. Diffusion simulations of a design that places a small TES in the center of the pixel with a large in-plane absorber around the TES demonstrate that with high-quality gold films (RRR >6) 2 eV resolution is attainable in a 700 μm pixel, meeting the Micro-X requirement. X-ray hits directly on the TES, however, create a non-gaussian high energy tail to the device response. This high energy tail contains 5% of incident photons and cannot be removed by lowering the optimal filter bandwidth.

Published

2008

21. Present Status of the SuperCDMS program

Author

J. Hall, R. Hennings-Yeomans, Darren Grant, W. Rau, Jeffrey P. Filippini, S. J. Yellin, R. W. Ogburn, L. Duong, Martin E. Huber, Jodi Cooley, Bruno Serfass, J. Yoo, Tarek Saab, Kent D. Irwin, Enectali Figueroa-Feliciano, F. DeJongh, Betty A. Young, K. M. Sundqvist, Astrid Tomada, Bernard Sadoulet, M. R. Dragowsky, Blas Cabrera, X. Qiu, J. Sander, D. O. Caldwell, R. Schmitt, R. Mahapatra, Donald J. Holmgren, A. Reisetter, C. N. Bailey, D. A. Bauer, Sunil Golwala, M. Pyle, R. Bunker, L. Novak, R. W. Schnee, P. Cushman, D. N. Seitz, D. S. Akerib, H. N. Nelson, N. Mirabolfathi, P. L. Brink, and E. J. Ramberg

Subjects

Physics, Particle physics, Large Hadron Collider, Physics::Instrumentation and Detectors, Dark matter, Massive particle, Supersymmetry, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Nuclear physics, WIMP, Weakly interacting massive particles, High Energy Physics::Experiment, General Materials Science, Sensitivity (control systems), Cryogenic Dark Matter Search

Abstract

The expected final reach of the Weakly Interacting Massive Particle (WIMP) search experiment CDMS-II by the end of 2007 is a WIMP-nucleon cross-section sensitivity of 2.1×10−44 cm2. To proceed further in our search, we have proposed the SuperCDMS Phase A project that would deploy 42 1-inch thick Ge detectors, at a site deeper than the location of CDMS II, and reach a desired sensitivity goal of 1.3×10−45 cm2. These cross-sections are of interest and are complementary to Supersymmetry searches at the Large Hadron Collider (LHC) and future linear colliders.

Published

2008

22. Hot on the Tail of the Elusive WIMP: Cryogenic Dark Matter Searches in the 21st Century

Author

Tarek Saab

Subjects

Physics, WIMP, Baryonic dark matter, Weakly interacting massive particles, Dark matter, Warm dark matter, General Materials Science, Cosmic ray, Supersymmetry, Astrophysics, Condensed Matter Physics, Light dark matter, Atomic and Molecular Physics, and Optics

Abstract

It is now well established and accepted that the universe has a total density equal to the critical density (Ω=1) and that roughly 25% of that amount is accounted for by non-relativistic particles. That these particles, referred to as Dark Matter, have remained a mystery has served to motivate physicists to design more ingenious and far reaching experiments in an attempt to identify and understand them. This paper will review various ongoing and proposed Dark Matter searches which employ cryogenic techniques to both detect the rare Dark Matter interactions as well as reject the vast number of background events from cosmic ray and radioactive backgrounds. Such experiments are already sensitive to and are able to reject certain models of supersymmetry, and with the increases in sensitivity projected over the next few years may even be able to detect these elusive particles.

Published

2008

23. Micro-X: Mission Overview and Science Goals

Author

Una Hwang, Enectali Figueroa-Feliciano, Frederick S. Porter, R. Smith, Kent D. Irwin, Marshall W. Bautz, Tarek Saab, M. Loewenstein, Peter J. Serlemitsos, Kathryn A. Flanagan, Joel N. Ullom, Steven E. Kissel, Simon R. Bandler, Alan M. Levine, Timothy R. Kallman, S. Deiker, Caroline A. Kilbourne, Norbert S. Schulz, Gregory V. Brown, Dennis S. Martinez-Galarce, R. F. Mushotzky, Massimiliano Galeazzi, Gene C. Hilton, C. D. Reistema, D. McCammon, R. L. Kelley, William B. Doriese, and Robert Petre

Subjects

Physics, Photon, business.product_category, Sounding rocket, Astrophysics::High Energy Astrophysical Phenomena, Astronomy, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Pathfinder, Spitzer Space Telescope, Rocket, Puppis A, General Materials Science, Spectral resolution, Focus (optics), business

Abstract

Micro-X, the High-Resolution Microcalorimeter X-ray Imaging Rocket, is a sounding rocket space telescope that will combine a transition-edge-sensor (TES) X-ray microcalorimeter array with a conical imaging mirror to obtain high spectral resolution images of extended and point X-ray sources. Microcalorimeters measure the energy of an absorbed photon by sensing the increase in temperature of the sensor from the thermalization of the absorbed photon’s energy. The advantages and scientific promise of this technology have fueled active development for the past 20 years. We will leverage this development and take the next step by producing a flight-qualified system that will serve as a pathfinder for future missions. Our scientific program will initially focus on extended sources, for which our high-spectral-resolution observations have distinct advantages over other technologies. For our initial flight, we will observe the bright eastern knot in the Puppis A remnant, a site of complex cloud-shock interactions and ejecta enrichment. A Micro-X observation of the bright eastern knot of Puppis A will obtain a line-dominated spectrum with 90,000 counts collected in 300 seconds at 2 eV resolution across the 0.3–2.5 keV band.

Published

2008

24. Absorber Materials for Transition-Edge Sensor X-ray Microcalorimeters

Author

Naoko Iyomoto, John E. Sadleir, Frederick S. Porter, F. M. Finkbeiner, Caroline A. Kilbourne, Stephen J. Smith, Regis P. Brekosky, Enectali Figueroa-Feliciano, R. L. Kelley, Simon R. Bandler, Jay Chervenak, Tarek Saab, and Ari-David Brown

Subjects

Materials science, Scanning electron microscope, business.industry, chemistry.chemical_element, Condensed Matter Physics, Microstructure, Atomic and Molecular Physics, and Optics, Bismuth, Thermal conductivity, chemistry, Optoelectronics, General Materials Science, Quantum efficiency, Transition edge sensor, Thin film, business, Residual-resistance ratio

Abstract

Arrays of superconducting transition-edge sensors (TES) can provide high spatial and energy resolution necessary for x-ray astronomy. High quantum efficiency and uniformity of response can be achieved with a suitable absorber material, in which absorber x-ray stopping power, heat capacity, and thermal conductivity are relevant parameters. Here we compare these parameters for bismuth and gold. We have fabricated electroplated gold, electroplated gold/electroplated bismuth, and evaporated gold/evaporated bismuth 8x8 absorber arrays and find that a correlation exists between the residual resistance ratio (RRR) and thin film microstructure. This finding indicates that we can tailor absorber material conductivity via microstructure alteration, so as to permit absorber thermalization on timescales suitable for high energy resolution x-ray microcalorimetry. We show that by incorporating absorbers possessing large grain size, including electroplated gold and electroplated gold/electroplated bismuth, into our current Mo/Au TES, devices with tunable heat capacity and energy resolution of 2.3 eV (gold) and 2.1 eV (gold/bismuth) FWHM at 6 keV have been fabricated.

Published

2008

25. Characterization and modeling of transition edge sensors for high resolution X-ray calorimeter arrays

Author

Caroline Kilbourn Stahle, C. Hammock, Fred M. Finkbeiner, Frederick S. Porter, Kevin R. Boyce, Simon R. Bandler, R. L. Kelley, Enectali Figueroa-Feliciano, Mark A. Lindeman, Jay Chervenak, Tarek Saab, and E Apodacas

Subjects

Physics, Nuclear and High Energy Physics, Physics::Instrumentation and Detectors, Resolution (electron density), Astrophysics::Instrumentation and Methods for Astrophysics, Signal, Heat capacity, Particle detector, Computational physics, Calorimeter, Thermal conductivity, Measuring instrument, Transition edge sensor, Instrumentation

Abstract

Characterizing and understanding, in detail, the behavior of a Transition Edge Sensor (TES) is required for achieving an energy resolution of 2 eV at 6 keV desired for future X-ray observatory missions. This paper will report on a suite of measurements (e.g. impedance and I–V among others) and simulations that were developed to extract a comprehensive set of TES parameters such as heat capacity, thermal conductivity, and R(T,I), α(T,I), and βi(T,I) surfaces. These parameters allow for the study of the TES calorimeter behavior at and beyond the small signal regime.

Published

2004

26. Effect of high-flux astronomical sources on the constellation-X microcalorimeter spectrometer

Author

Jay Chervenak, R. L. Kelley, Fred M. Finkbeiner, Scott Porter, Caroline Kilbourn Stahle, Simon R. Bandler, Kevin R. Boyce, Tarek Saab, Enectali Figueroa-Feliciano, and Mark A. Lindeman

Subjects

Physics, Nuclear and High Energy Physics, Photon, Spectrometer, Event list, Physics::Instrumentation and Detectors, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Detector, Flux, High flux, Optics, Crab Nebula, business, Instrumentation, Constellation

Abstract

We study the effects of high flux on transition-edge sensors by using a non-linear microcalorimeter model with parameters suitable for the Constellation-X mission. A photon event list was created that simulated the flux and spectrum of the Crab nebula incident on the detector when folded through the Constellation-X optics and filters. Simulations show that even at Crab levels of flux, the Con-X microcalorimeter does not “latch” into the normal state.

Published

2004

27. Design of transition edge sensor microcalorimeters for optimal performance

Author

Enectali Figueroa-Feliciano, Kevin R. Boyce, Mark A. Lindeman, Tarek Saab, Fred M. Finkbeiner, Jay Chervenak, Caroline Kilbourn Stahle, Regis P. Brekosky, Frederick S. Porter, Simon R. Bandler, and R. L. Kelley

Subjects

Physics, Nuclear and High Energy Physics, Range (particle radiation), Physics::Instrumentation and Detectors, business.industry, Detector, Frame (networking), Heat capacity, Noise (electronics), Thermal conductivity, Optics, Transition edge sensor, business, Instrumentation, Energy (signal processing)

Abstract

We have developed a model for transition edge sensors to optimize performance under a variety of different conditions. There are three design trade-offs when engineering a microcalorimeter for a particular application: energy resolution, energy range and maximum count rate. All three are interdependent and are determined by various design parameters such as the detector heat capacity, the sharpness of the transition, and the thermal conductance of the detector to the frame. Our model includes all known sources of intrinsic noise in our calorimeters including the observed broad band excess noise. We will present the results of this model, and its predictions for optimally designed microcalorimeters.

Published

2004

28. Installation and commissioning of the CDMSII experiment at Soudan

Author

R. Mahapatra, Tarek Saab, M. J. Attisha, M. B. Crisler, H. N. Nelson, R. Ferril, John M. Martinis, Donald J. Holmgren, R. H. Nelson, M. C. Perillo Isaac, Astrid Tomada, G. Smith, R. Bunker, J. Alvaro-Dean, A. Lu, Alexander Bolozdynya, M. Haldeman, L. Duong, Martin E. Huber, J. P. F. Thompson, A. L. Spadafora, P. Meunier, J. Hellmig, Thushara Perera, D. O. Caldwell, R. L. Dixon, G. Wang, D. N. Seitz, S. Kamat, J. P. Castle, R. J. Gaitskell, M. S. Armel, S. J. Yellin, J. Sander, Bernard Sadoulet, R. W. Ogburn, Betty A. Young, T. A. Shutt, J. Emes, J. Perales, D. A. Bauer, R. W. Schnee, Ronald R. Ross, C. Savage, Laura Baudis, C. L. Chang, M. Kurylowicz, M. Hennessey, Vuk Mandic, D. D. Driscoll, Sunil Golwala, A. K. Davies, P. Cushman, A. Reisetter, W. Rau, D. S. Akerib, Blas Cabrera, Sae Woo Nam, R. M. Clarke, P. L. Brink, and N. Mirabolfathi

Subjects

Physics, Nuclear and High Energy Physics, Physics::Instrumentation and Detectors, Nuclear engineering, Detector, Dark matter, Nuclear physics, Data acquisition, Installation, Weakly interacting massive particles, Electromagnetic shielding, High Energy Physics::Experiment, Electronics, Cryogenic Dark Matter Search, Instrumentation

Abstract

In the past year and a half, the Cryogenic Dark Matter Search (CDMS) collaboration has been active at the Soudan mine in installing a system for running ZIP detectors that will be used to search for dark matter in the form of Weakly Interacting Massive Particles. Presently, there is an operating cryogenic system, working electronics, a functional data acquisition and analysis system, passive shielding, an active muon veto, and 12 ZIP detectors. Six of the 12 ZIP detectors have been tested in situ and are fully operational with acceptable noise profiles. CDMS is in the process of commissioning the experiment and expects to be making a background measurement by the end of summer 2003.

Published

2004

29. Results from the 1998–1999 runs of the cryogenic dark matter search

Author

M. S. Armel-Funkhouser, P. Meunier, V. Mandi, Thushara Perera, S. J. Yellin, A. R. Smith, G. Wang, Tarek Saab, C. L. Chang, Donald J. Holmgren, J. P. Castle, S. Eichblatt, Betty A. Young, Ronald R. Ross, M. B. Crisler, W. Rau, A. H. Sonnenschein, R. J. Gaitskell, David S. Abrams, Alexander Bolozdynya, J. Sander, Sae Woo Nam, Martin E. Huber, John M. Martinis, D. A. Bauer, P. L. Brink, J. Hellmig, D. D. Driscoll, A. Lu, R. Bunker, R. L. Dixon, Blas Cabrera, R. W. Schnee, H. N. Nelson, Sunil Golwala, S. Kamat, Laura Baudis, D. S. Akerib, T. A. Shutt, M. C. Perillo Isaac, R. M. Clarke, Bernard Sadoulet, A. L. Spadafora, D. O. Caldwell, and E. E. Haller

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Physics::Instrumentation and Detectors, Astrophysics::Instrumentation and Methods for Astrophysics, Elementary particle, Astrophysics::Cosmology and Extragalactic Astrophysics, Atomic and Molecular Physics, and Optics, Nuclear physics, WIMP, Weakly interacting massive particles, Atomic nucleus, Warm dark matter, Cryogenic Dark Matter Search, Halo, Light dark matter

Abstract

The Cryogenic Dark Matter Search (CDMS) uses low-temperature Ge and Si detectors to search for Weakly Interacting Massive Particles (WIMPs) via their elastic-scattering interaction with atomic nuclei while discriminating against interactions of background particles. CDMS data from 1998 and 1999 with a relaxed fiducial-volume cut (resulting in 15.8 kg-days exposure on Ge) are consistent with an earlier analysis with a more restrictive fiducial-volume cut. Twenty-three WIMP candidate events are observed, but these events are consistent with a background from neutrons. Resulting limits on the spin-independent WIMP-nucleon elastic-scattering cross-section are lower than those of any other experiment for WIMPs with masses between 10–70 GeV c −2 . Under the assumptions of standard WIMP interactions and a standard halo, the results are incompatible with the annual-modulation signal of DAMA at 99.99% CL in the asymptotic limit.

Published

2003

30. Scalability, scintillation readout and charge drift in a kilogram scale solid xenon particle detector

Author

Yoo, J., Cease, H., Jaskierny, W. F., Markley, D., Pahlka, R. B., Balakishiyeva, D., Tarek Saab, and Filipenko, M.

Subjects

Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, Physics::Medical Physics, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det)

Abstract

We report a demonstration of the scalability of optically transparent xenon in the solid phase for use as a particle detector above a kilogram scale. We employ a liquid nitrogen cooled cryostat combined with a xenon purification and chiller system to measure the scintillation light output and electron drift speed from both the solid and liquid phases of xenon. Scintillation light output from sealed radioactive sources is measured by a set of high quantum efficiency photomultiplier tubes suitable for cryogenic applications. We observed a reduced amount of photons in solid phase compared to that in liquid phase. We used a conventional time projection chamber system to measure the electron drift time in a kilogram of solid xenon and observed faster electron drift speed in the solid phase xenon compared to that in the liquid phase.

Published

2014

31. Search for low-mass weakly interacting massive particles with SuperCDMS

Author

B. Shank, Betty A. Young, D. Brandt, A. Leder, B. Loer, J. Beaty, B. Serfass, S. Upadhyayula, R. Agnese, A. Phipps, T. Hofer, D. Balakishiyeva, H. Chagani, R. Mahapatra, A. Jastram, A. Kennedy, Miguel Daal, R. Bunker, Y. Ricci, R. H. Nelson, S. Fallows, D. N. Seitz, Blas Cabrera, M. Platt, R. Partridge, A. Reisetter, H. R. Harris, M. Kiveni, L. Esteban, E. Lopez Asamar, S. Scorza, Matt Pyle, S. A. Hertel, B. Welliver, Yan Chen, W. Rau, R. Basu Thakur, A. W. Borgland, K. Koch, K. L. Page, Cristián Martínez, Vuk Mandic, J. Sander, K. Prasad, P. Di Stefano, L. Novak, Jodi Cooley, M. H. Kelsey, Danielle Speller, N. Mirabolfathi, Douglas Wright, S. J. Yellin, David G. Cerdeño, B. Kara, M. A. Bowles, M. Ruschman, A. N. Villano, Robert A. Moffatt, R. Resch, B. A. Hines, Sissel Hansen, O. Kamaev, E. Do Couto E Silva, G. Godfrey, J. Zhang, D. Devaney, L. Hsu, Kevin A. McCarthy, S. Kenany, P. Redl, M. Asai, T. Doughty, Adam Anderson, J. Hall, J. J. Yen, J. Billard, B. Cornell, C. H. Crewdson, Donald J. Holmgren, M. Pepin, Bernard Sadoulet, R. Schmitt, D. A. Bauer, Enectali Figueroa-Feliciano, Tarek Saab, Martin E. Huber, P. Cushman, K. Schneck, R. W. Schnee, P. L. Brink, David O. Caldwell, M. Cherry, Sunil Golwala, H. Qiu, and Astrid Tomada

Subjects

Nuclear physics, Physics, Particle physics, WIMP, Scattering, Weakly interacting massive particles, Signal region, Dark matter, General Physics and Astronomy, Parameter space, Low Mass

Abstract

We report a first search for weakly interacting massive particles (WIMPs) using the background rejection capabilities of SuperCDMS. An exposure of 577 kg days was analyzed for WIMPs with mass

Published

2014

32. Detector Fabrication Yield for SuperCDMS Soudan

Author

W. Rau, Blas Cabrera, J. Hall, Matthew Fritts, Vuk Mandic, D. Balakishiyeva, S. Scorza, B. Welliver, B. A. Hines, S. A. Hertel, Miguel Daal, A. N. Villano, Sunil Golwala, N. Mirabolfathi, E. Do Couto E Silva, Enectali Figueroa-Feliciano, M. Cherry, D. A. Bauer, Kevin A. McCarthy, J. J. Yen, P. L. Brink, J. Zhang, B. Shank, Matt Pyle, R. Radpour, A. Reisetter, Bernard Sadoulet, H. Qiu, J. Beaty, B. Kara, J. Sander, Bruno Serfass, R. Resch, O. Kamaev, S. Kenany, R. Mahapatra, Astrid Tomada, T. Doughty, R. H. Harris, Jodi Cooley, Steven W. Leman, R. Partridge, Betty A. Young, P. Cushman, Tarek Saab, R. W. Schnee, Martin E. Huber, R. Schmitt, G. Godfrey, L. Hsu, D. Brandt, L. Novak, Adam Anderson, H. Chagani, and D. N. Seitz

Subjects

Physics, Fabrication, Yield (engineering), business.industry, Detector, Dark matter, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Underground laboratory, Interdigitated electrode, Optoelectronics, General Materials Science, Direct search, business

Abstract

The SuperCDMS collaboration is presently operating a 9 kg Ge payload at the Soudan Underground Laboratory in their direct search for dark matter. The Ge detectors utilize double-sided athermal phonon sensors with an interdigitated electrode structure (iZIPs) to reject near-surface electron-recoil events. These detectors each have a mass of 0.6 kg and were fabricated with photolithographic techniques. The detector fabrication advances required and the production yield encountered are described.

Published

2014

33. Cryogenic detectors based on superconducting transition-edge sensors for time-energy-resolved single-photon counters and for dark matter searches

Author

Roger W. Romani, Aaron J. Miller, Betty A. Young, Blas Cabrera, R. M. Clarke, Sae Woo Nam, and Tarek Saab

Subjects

Physics, Photon, Physics::Instrumentation and Detectors, business.industry, Infrared, Crab Pulsar, Dark matter, Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Optics, WIMP, Ionization, Cryogenic particle detectors, Cryogenic Dark Matter Search, Electrical and Electronic Engineering, business

Abstract

We present the recent progress using transition-edge sensors (TES) for cryogenic particle detectors. First, by directly absorbing photons in tungsten TES devices, an instrument has been made which time stamps ( 0.1 μs ) and energy resolves (0.15 eV FWHM) each photon at rates up to 10 kHz. Observations of the Crab pulsar are the first broad spectrum infrared through full optical and time resolved on any astronomical object. Second, in the CDMS (cryogenic dark matter search) experiment looking for WIMPs, large crystals of silicon and germanium are instrumented with QET (quasiparticle-trap-assisted electrothermal-feedback transition-edge sensors) phonon sensors which provide the recoil energy and location in x,y and z for each event. Together with an ionization readout, these detectors provide powerful discrimination capabilities against known backgrounds and they are now probing new regions for WIMP dark matter.

Published

2000

34. Optimal filter analysis of energy-dependent pulse shapes and its application to TES detectors

Author

Blas Cabrera, Enectali Figueroa-Feliciano, Aaron J. Miller, Stephen F. Powell, Arthur B. C. Walker, and Tarek Saab

Subjects

Physics, Nuclear and High Energy Physics, Dynamic range, business.industry, Detector, Filter (signal processing), Span (engineering), Signal, Pulse (physics), Full width at half maximum, Optics, business, Instrumentation, Interpolation

Abstract

We present a method for applying optimal filtering to data sets containing energy-dependent pulse shapes. This occurs frequently in transition edge sensors (TES) when dealing with signal energies that are close to the saturation point of the detector. Different filter templates are created which span the dynamic range desired for the TES. These filters are then used as templates to filter the data, using interpolation to bridge the gap between templates. The method has been demonstrated on our tungsten (W) TES. We present the latest results from heat-pulse data on a (125 μm ) 2 TES with resolutions of 3 eV FWHM at 42 eV and 4 eV FWHM at 1.42 keV with the same sensor demonstrating the wide band operation possible with this technique.

Published

2000

35. Exclusion limits on the WIMP-nucleon scattering cross-section from the Cryogenic Dark Matter Search

Author

P. Shestople, Tarek Saab, P. L. Brink, R. R. Ross, S. Eichblatt, R. Abusaidi, J. Hellmig, Peter D. Barnes, A. K. Davies, Alexander Bolozdynya, R. M. Clarke, Alan R. Smith, Bernard Sadoulet, J. P. Castle, John M. Martinis, M. Crisler, A. Da Silva, Sae Woo Nam, F. P. Lipschultz, T. A. Shutt, A. H. Sonnenschein, Betty A. Young, J D Nelson, Thushara Perera, R. J. Gaitskell, S. J. Yellin, D. A. Bauer, J. Jochum, R. L. Dixon, Blas Cabrera, Sunil Golwala, R. W. Schnee, D. S. Akerib, B. Neuhauser, P. Colling, Kent D. Irwin, Martin E. Huber, M. C. Perillo Isaac, D. O. Caldwell, A. L. Spadafora, and E. E. Haller

Subjects

Physics, Elastic scattering, Nuclear and High Energy Physics, Particle physics, Physics::Instrumentation and Detectors, Scattering, Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Nuclear physics, WIMP, Ionization, Weakly interacting massive particles, High Energy Physics::Experiment, Cryogenic Dark Matter Search, Nucleon, Instrumentation, Light dark matter

Abstract

The Cryogenic Dark Matter Search (CDMS) employs massive ionization- and phonon-mediated detectors to search for WIMPs via their elastic scattering interactions with nuclei while discriminating against interactions by other background particles. Limits on the WIMP-nucleon scattering cross-section, based on 3.1 kg d of exposure, exclude new parameter space in the 10–30 GeV WIMP mass region and also a portion of the region allowed by the DAMA annual modulation search (Bernabei, Phys. Lett. 450 (1999) 448).

Published

2000

36. Tc tuning of tungsten transition edge sensors using iron implantation

Author

J. J. Cross, R. Abusaidi, Tarek Saab, Betty A. Young, and Blas Cabrera

Subjects

Superconductivity, Physics, Nuclear and High Energy Physics, Range (particle radiation), Cold dark matter, business.industry, Phonon, Transition temperature, Detector, chemistry.chemical_element, Tungsten, chemistry, Condensed Matter::Superconductivity, Quasiparticle, Optoelectronics, business, Instrumentation

Abstract

We have developed a technique for precisely tuning the transition temperature of superconducting tungsten (W) films used in Quasiparticle trap-assisted Electrothermal-feedback Transition edge sensors (QETs). We have demonstrated our technique using several 350 A-thick W films with “as-deposited” transition temperatures in the range of ∼90–150 mK. The accuracy of our tuning process is excellent, and T c suppressions of prescribed amounts ranging from a few mK to 100 mK have been demonstrated. Our implantation method is highly reproducible and does not result in broadened transitions of the superconducting films. Our results represent an important breakthrough in the optimization of detectors used in the Cold Dark Matter Search (CDMS) experiments, where we prefer W phonon sensors with T c ∼65 mK. In this paper, we describe in detail our T c tuning technique and we present results from characterization experiments performed with the T c - adjusted films.

Published

2000

37. Measurement of Tc suppression in tungsten using magnetic impurities

Author

J. J. Cross, R. M. Clarke, R. Abusaidi, Blas Cabrera, Tarek Saab, and Betty A. Young

Subjects

Superconductivity, RKKY interaction, Materials science, Condensed matter physics, Dopant, Transition temperature, Doping, General Physics and Astronomy, chemistry.chemical_element, Tungsten, Condensed Matter::Materials Science, Ion implantation, chemistry, Impurity, Condensed Matter::Superconductivity, Condensed Matter::Strongly Correlated Electrons

Abstract

We have measured the effects of dilute magnetic-atom doping on the superconducting transition temperature of tungsten thin films. Our “Tc tuning” technique is accurate, precise, and simple. Experiments were performed using dc-magnetron-sputtered tungsten films with undoped values of Tc in the range of 70–150 mK. The magnetic-atom doping was achieved using ion implantation. Specific Tc suppressions of between 5% and 65% were targeted and observed in this study. The transition width of each undoped sample was ≈1 mK and the transition widths remained sharp after implantation with 56Fe+ ions. Our data are in good agreement with predictions of a linear dependence of Tc suppression with increasing magnetic-atom concentration, in the small concentration limit. At higher concentrations, antiferromagnetic coupling between the magnetic dopant atoms becomes important and the Tc-suppression effect is diminished. We use our Tc data to calculate the Abrikosov–Gor’kov (AG) and Ruderman–Kittel–Kasuya–Yosida (RKKY) spin–f...

Published

1999

38. Ground calibration of the XRS microcalorimeter onboard Suzaku

Author

Yoshitaka Ishisaki, R. L. Kelley, Tarek Saab, Yoh Takei, Gregory V. Brown, U. Morita, Kazuhisa Mitsuda, Jean Cottam, Ryuichi Fujimoto, Kevin R. Boyce, Frederick S. Porter, M. Yamamoto, D. McCammon, Naomi Ota, T. Furusho, and Caroline A. Kilbourne

Subjects

Physics, Nuclear and High Energy Physics, Optics, Spacecraft, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Antenna aperture, Astrophysics::Instrumentation and Methods for Astrophysics, Calibration, X-ray detector, business, Instrumentation, Remote sensing

Abstract

著者人数: 16名, 資料番号: SA1000343000

Published

2006

39. Non-linear effects in transition edge sensors for X-ray detection

Author

Frederick S. Porter, Kendrah D. Murphy, R. L. Kelley, Enectali Figueroa-Feliciano, Naoko Iyomoto, Caroline A. Kilbourne, John E. Sadleir, Tarek Saab, and Simon R. Bandler

Subjects

Physics, Nuclear and High Energy Physics, business.industry, Wiener filter, X-ray, Heat capacity, Non-linear effects, Nonlinear system, symbols.namesake, Optics, symbols, Transition edge sensor, business, Instrumentation, Saturation (magnetic), Energy (signal processing)

Abstract

In a microcalorimeter that uses a transition-edge sensor to detect energy depositions, the small signal energy resolution improves with decreasing heat capacity. This improvement remains true up to the point where non-linear and saturation effects become significant. This happens when the energy deposition causes a significant change in the sensor resistance. Not only does the signal size become a non-linear function of the energy deposited, but also the noise becomes non-stationary over the duration of the pulse. Algorithms have been developed that can calculate the optimal performance given this non-linear behavior that typically requires significant processing and calibration work—both of which are impractical for space missions. We have investigated the relative importance of the various non-linear effects, with the hope that a computationally simple transformation can overcome the largest of the non-linear and non-stationary effects, producing a highly linear “gain” for pulse-height versus energy, and close to the best energy resolution at all energies when using a Wiener filter.

Published

2006

40. Characterization, performance, and future advanced analysis of detectors in the cryogenic dark matter search (CDMS-II)

Author

Thushara Perera, S. J. Yellin, J. Sander, C. N. Bailey, Chihway Chang, R. H. Nelson, Sunil Golwala, M. J. Attisha, Tarek Saab, P. Meunier, S. Leclercq, M. R. Dragowsky, J. P. F. Thompson, N. Mirabolfathi, E. J. Ramberg, R. Ferril, S. Kamat, D. O. Caldwell, Betty A. Young, R. J. Gaitskell, D. S. Akerib, K. M. Sundqvist, Donald J. Holmgren, R. W. Ogburn, Jeffrey P. Filippini, P. L. Brink, H. N. Nelson, M. B. Crisler, J. Yoo, Ronald R. Ross, R. Hennings-Yeomans, M. Pyle, Darren Grant, Vuk Mandic, L. Duong, Miguel Daal, Martin E. Huber, P. P. Brusov, D. N. Seitz, D. A. Bauer, R. Mahapatra, A. Reisetter, A. Lu, Bernard Sadoulet, G. Wang, C. Savage, Laura Baudis, R. Bunker, R. L. Dixon, Blas Cabrera, Jodi Cooley, R. W. Schnee, D. D. Driscoll, P. Cushman, and Bruno Serfass

Subjects

Physics, Data set, Nuclear and High Energy Physics, Particle physics, Cold dark matter, Detector, Cryogenic Dark Matter Search, Current (fluid), Instrumentation, Characterization (materials science)

Abstract

We present the techniques and results of the calibrations and surface-event rejection cut for the current CDMS-II data set, along with proposals for future analysis of CDMS-II data.

Published

2006

41. Analysis of the Suzaku/XRS background

Author

Frederick S. Porter, M. Yamamoto, Yoh Takei, Caroline A. Kilbourne, U. Morita, R. L. Kelley, Yoshitaka Ishisaki, T. Furusho, Jean Cottam, Naomi Ota, Gregory V. Brown, Kazuhisa Mitsuda, Ryuichi Fujimoto, Enectali Figueroa-Feliciano, Kevin R. Boyce, Tarek Saab, and D. McCammon

Subjects

Physics, Nuclear and High Energy Physics, Spectrometer, Pixel, Physics::Instrumentation and Detectors, Detector, X-ray detector, Astronomy, Cosmic ray, Astrophysics, Signal, Calorimeter, Observatory, Instrumentation

Abstract

著者人数: 17名, 資料番号: SA1000334000

Published

2006

42. Determination of complex microcalorimeter parameters with impedance measurements

Author

J. Sadleir, James A. Chervenak, Frederick S. Porter, Simon R. Bandler, Naoko Iyomoto, Caroline A. Kilbourne, Mark A. Lindeman, Richard L. Kelley, Tarek Saab, Fred M. Finkbeiner, and Enectali Figueroa-Feliciano

Subjects

Physics, Nuclear and High Energy Physics, Thermal conductivity, Nuclear magnetic resonance, Mathematical model, Specific heat, Degenerate energy levels, Instrumentation, Electrical impedance, Heat capacity, Noise (electronics), Spectral line, Computational physics

Abstract

The proper understanding and modeling of a microcalorimeter's response requires accurate knowledge of a handful of parameters, such as C, G, α . While a few of these parameters are directly determined from the IV characteristics, some others, notoriously the heat capacity (C) and α , appear in degenerate combinations in most measurable quantities. The consideration of a complex microcalorimeter leads to an added ambiguity in the determination of the parameters. In general, the dependence of the microcalorimeter's complex impedance on these various parameters varies with frequency. This dependence allows us to determine individual parameters by fitting the prediction of the microcalorimeter model to impedance data. In this paper we describe efforts at characterizing the Goddard X-ray microcalorimeters. With the parameters determined by this method, we compare the pulse shape and noise spectra predictions to data taken with the same devices.

Published

2006

43. Position-sensitive transition-edge sensors

Author

Jay Chervenak, Naoko Iyomoto, Enectali Figueroa-Feliciano, Caroline A. Kilbourne, Tarek Saab, D. J. Talley, Kendrah D. Murphy, Mark A. Lindeman, John E. Sadleir, R. L. Kelley, Simon R. Bandler, F. M. Finkbeiner, Frederick S. Porter, and Regis P. Brekosky

Subjects

Physics, Nuclear and High Energy Physics, Pixel, Spectrometer, business.industry, Resolution (electron density), X-ray, Pulse (physics), Thermal conductivity, Optics, Position (vector), business, Instrumentation, Energy (signal processing)

Abstract

We report the latest results from our development of Position-Sensitive Transition-edge sensors (PoSTs), which are one-dimensional imaging spectrometers. In PoSTs with segmented Au absorbers, we obtained 8 eV energy resolution on K K α lines, which is consistent to the baseline energy resolution and the design values, on all of the nine pixels, by choosing the best combination of the thermal conductance in absorbers and in links that connects the absorbers. The pulse decay time of 193 μ s is fast enough for our purpose. In a PoST with a continuous Bi/Cu absorber, by dividing the events into 63 effective pixels, we obtained energy resolutions of 16 eV at the center “pixel”, which is comparable to the baseline energy resolution, and 33 eV at the outer “pixel”. The degradation of the energy resolution in the outer “pixel” is due to position dependence, which we can cancel out by dividing the events into smaller “pixels” when we have sufficient X-ray events.

Published

2006

44. Bismuth X-ray absorber studies for TES microcalorimeters

Author

Naoko Iyomoto, Enectali Figueroa-Feliciano, Simon R. Bandler, R. L. Kelley, Tarek Saab, Frederick S. Porter, Regis P. Brekosky, Ian K. Robinson, Jay Chervenak, John E. Sadleir, Caroline A. Kilbourne, J. King, D. J. Talley, and F. M. Finkbeiner

Subjects

Superconductivity, Physics, Nuclear and High Energy Physics, Fabrication, business.industry, Annealing (metallurgy), Intermetallic, chemistry.chemical_element, Bismuth, Condensed Matter::Materials Science, chemistry, Condensed Matter::Superconductivity, Surface roughness, Optoelectronics, Atomic number, Transition edge sensor, business, Instrumentation

Abstract

Bismuth's large atomic number and low carrier density makes it an attractive X-ray absorber material for microcalorimeters. Bismuth's long fermi wavelength and long mean free paths have motivated much interest in the fabrication of high quality bismuth films to study quantum size effects. Despite such incentives, fabrication of high quality bismuth films has proven difficult, and measured properties of such films are highly variable in the literature. Implementing a bismuth deposition process for TES (superconducting Transition Edge Sensor) device fabrication presents additional challenges particularly at interfaces due to the inherent granularity and surface roughness of its films, its low melting point, and its tendency to diffuse and form undesired intermetallic phases. We report observations of Bi–Cu and Bi–Au diffusion in our devices correlating with large shifts in T c (superconducting transition temperature). Using SEM and in situ R vs T annealing experiments we have been able to study these diffusion processes and identify their activation temperatures.

Published

2006

45. Determination of lateral diffusivity in single pixel X-ray absorbers with implications for position dependent excess broadening

Author

Frederick S. Porter, John E. Sadleir, Jay Chervenak, R. L. Kelley, Caroline A. Kilbourne, B.D. Herbert, Naoko Iyomoto, Enectali Figueroa-Feliciano, Tarek Saab, Simon R. Bandler, and F. M. Finkbeiner

Subjects

Physics, Nuclear and High Energy Physics, Computer simulation, business.industry, Dynamic range, Detector, Thermal diffusivity, Pulse (physics), Optics, Thermal conductivity, Position (vector), Sensitivity (control systems), business, Instrumentation

Abstract

An ideal microcalorimeter is characterized by a constant energy resolution across the sensor's dynamic range. Any dependence of pulse shape on the position within the absorber where an event occurs leads to a degradation in resolution that is linear with event's energy (excess broadening). In this paper we present a numerical simulation that was developed to model the variation in pulse shape with position based on the thermal conductivity within the absorber and between the absorber, sensor, and heat bath, for arbitrarily shaped absorbers and sensors. All the parameters required for the simulation can be measured from actual devices. We describe how the thermal conductivity of the absorber material is determined by comparing the results of this model with data taken from a position sensitive detector in which any position dependent effect is purposely emphasized by constructing a long, narrow absorber that is readout by sensors on both ends. Finally, we present the implications for excess broadening given the measured parameters of our X-ray microcalorimeters.

Published

2006

46. Percolation model of excess electrical noise in transition-edge sensors

Author

Mark A. Lindeman, D. McCammon, R. L. Kelley, T. Lai, S. Fallows, Caroline A. Kilbourne, Tarek Saab, S. Gwynne Crowder, M. B. Anderson, G. Vidugiris, N. Bilgri, J. Man, Naoko Iyomoto, John E. Sadleir, K. L. Nelms, L. Rocks, Enectali Figueroa-Feliciano, Frederick S. Porter, Jay Chervenak, F. M. Finkbeiner, and Simon R. Bandler

Subjects

Physics, Superconductivity, Nuclear and High Energy Physics, Condensed matter physics, Physics::Instrumentation and Detectors, Astrophysics::Instrumentation and Methods for Astrophysics, White noise, Quantitative Biology::Genomics, Noise (electronics), law.invention, Complex dynamics, law, Percolation, Perpendicular, Resistor, Transition edge sensor, Instrumentation

Abstract

We present a geometrical model to describe excess electrical noise in transition-edge sensors (TESs). In this model, a network of fluctuating resistors represents the complex dynamics inside a TES. The fluctuations can cause several resistors in series to become superconducting. Such events short out part of the TES and generate noise because much of the current percolates through low resistance paths. The model predicts that excess white noise increases with decreasing TES bias resistance (R/RN) and that perpendicular zebra stripes reduce noise and alpha of the TES by reducing percolation.

Published

2006

47. The SuperCDMS proposal for dark matter detection

Author

Betty A. Young, Jeffrey P. Filippini, K. M. Sundqvist, R. Bunker, L. Duong, Blas Cabrera, P. P. Brusov, Martin E. Huber, E. J. Ramberg, R. W. Schnee, A. Reisetter, M. R. Dragowsky, J. Yoo, Bernard Sadoulet, M. J. Attisha, J. P. F. Thompson, J. Sander, D. O. Caldwell, P. Cushman, C. N. Bailey, R. Hennings-Yeomans, Darren Grant, D. A. Bauer, P. L. Brink, Jodi Cooley, Peter Denes, R. J. Gaitskell, Laura Baudis, R. Mahapatra, Sunil Golwala, D. S. Akerib, Kent D. Irwin, Donald J. Holmgren, A. Lu, P. Meunier, R. W. Ogburn, H. N. Nelson, D. N. Seitz, N. Mirabolfathi, C. L. Chang, S. J. Yellin, M. B. Crisler, Tarek Saab, and Bruno Serfass

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Cold dark matter, Large Underground Xenon experiment, WIMP, Weakly interacting massive particles, Dark matter, Warm dark matter, Cryogenic Dark Matter Search, Instrumentation, Light dark matter

Abstract

Presently the CDMS-II collaboration's Weakly Interacting Massive Particle (WIMP) search at the Soudan Underground Laboratory sets the most stringent exclusion limits of any WIMP cold dark matter direct-detection experiment. To extend our reach further, to WIMP-nucleon cross-sections in the range 10 - 46 - 10 - 44 cm 2 , we propose SuperCDMS, which would take advantage of a very deep site. One promising site is the recently approved SNOLab facility in Canada. In this paper we will present our overall program and focus on phase A of SuperCDMS.

Published

2006

48. Design and performance of large-pixel-size high-fill-fraction TES arrays for future X-ray astrophysics missions

Author

John E. Sadleir, Naoko Iyomoto, J. White, Tarek Saab, Enectali Figueroa-Feliciano, F. M. Finkbeiner, Frederick S. Porter, Simon R. Bandler, Jay Chervenak, Caroline A. Kilbourne, and R. L. Kelley

Subjects

Physics, Nuclear and High Energy Physics, Diffusion (acoustics), Pixel, business.industry, Resolution (electron density), Time constant, chemistry.chemical_element, Bismuth, Optics, chemistry, Position (vector), business, Absorption (electromagnetic radiation), Instrumentation, Energy (signal processing)

Abstract

We have designed, modeled, fabricated and tested a 600 μ m high-fill-fraction microcalorimeter array that will be a good match to the requirements of future X-ray missions. Our devices use transition-edge sensors coupled to overhanging bismuth/copper absorbers to produce arrays with 97% or higher fill fraction. An extensive modeling effort was undertaken in order to accommodate large pixel sizes (500– 1000 μ m ) and maintain the best energy resolution possible. The finite thermalization time of the large absorber and the associated position dependence of the pulse shape on absorption position constrain the time constants of the system given a desired energy-resolution performance. We show the results of our analysis and our new pixel design, consisting of a novel TES-on-the-side architecture which creates a controllable TES-absorber conductance.

Published

2006

49. Semiconductor phonon and charge transport Monte Carlo simulation using Geant4

Author

Brandt, D., Agnese, R., Redl, P., Schneck, K., Asai, M., Kelsey, M., Faiez, D., Bagli, E., Cabrera, B., Partridge, R., Tarek Saab, and Sadoulet, B.

Subjects

Condensed Matter::Materials Science, Physics - Instrumentation and Detectors, Condensed Matter::Superconductivity, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det)

Abstract

A phonon and charge transport simulation based on the Geant4 Monte Carlo toolkit is presented. The transport code is capable of propagating acoustic phonons, electrons and holes in cryogenic crystals. Anisotropic phonon propagation, oblique carrier propagation and phonon emission by accelerated carriers are all taken into account. The simulation successfully reproduces theoretical predictions and experimental observations such as phonon caustics, heat pulse propagation times and mean carrier drift velocities. Implementation of the transport code using the Geant4 toolkit ensures availability to the wider scientific community., Comment: 5 pages, 5 figures

Published

2014

50. Silicon detector dark matter results from the final exposure of CDMS II

Author

Matthew Fritts, Jeffrey P. Filippini, G.L. Godfrey, Jodi Cooley, M. H. Kelsey, Vuk Mandic, K. Prasad, S. A. Hertel, P. L. Brink, David O. Caldwell, Y. Ricci, T. Hofer, P. Nadeau, Steven W. Leman, M. Kos, B. Shank, D. Balakishiyeva, Martin E. Huber, Donald J. Holmgren, P. Cushman, J. Sander, K. Koch, A. W. Borgland, C. H. Crewdson, D. A. Bauer, L. Esteban, Miguel Daal, R. Basu Thakur, R. Partridge, A. Jastram, K. L. Page, S. Scorza, P. Redl, B. Loer, J. Hall, B. Serfass, R. H. Harris, Cristián Martínez, David Moore, Robert A. Moffatt, Bernard Sadoulet, S. Arrenberg, P. Kim, K. Schneck, J. J. Yen, H. Qiu, B. Kara, Z. Ahmed, R. Bunker, A. N. Villano, T. Bruch, B. Welliver, Betty A. Young, Sunil Golwala, A. Kennedy, Danielle Speller, David G. Cerdeño, N. Mirabolfathi, Douglas Wright, A. Reisetter, B. Cornell, Blas Cabrera, A. Phipps, K. M. Sundqvist, L. Hsu, W. Rau, R. Mahapatra, Kevin A. McCarthy, H. Chagani, R. W. Schnee, J. Fox, O. Kamaev, J. Zhang, F. DeJongh, E. Do Couto E Silva, Adam Anderson, D. Brandt, R. Agnese, S. Fallows, Enectali Figueroa-Feliciano, M. Kiveni, S. J. Yellin, Matt Pyle, E. Lopez Asamar, Tarek Saab, J. Yoo, J. Billard, M. Pepin, R. H. Nelson, T. Doughty, and UAM. Departamento de Física Teórica

Subjects

Particle physics, Physics - Instrumentation and Detectors, Cosmology and Nongalactic Astrophysics (astro-ph.CO), Dark matter, FOS: Physical sciences, General Physics and Astronomy, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Recoil, WIMP, 0103 physical sciences, Neutron, 010306 general physics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Physics, 010308 nuclear & particles physics, Física, Instrumentation and Detectors (physics.ins-det), Confidence interval, Semiconductor detector, Likelihood-ratio test, Weakly interacting massive particles, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We report results of a search for Weakly Interacting Massive Particles (WIMPS) with the silicon detectors of the CDMS II experiment. This blind analysis of 140.2 kg-days of data taken between July 2007 and September 2008 revealed three WIMP-candidate events with a surface-event background estimate of 0.41^{+0.20}_{-0.08}(stat.)^{+0.28}_{-0.24}(syst.). Other known backgrounds from neutrons and 206Pb are limited to < 0.13 and, 5 pages, 4 figures, as accepted by PRL

Published

2013