Your search keyword '"C Madsen"' showing total 8 results

1. On-Bead Chemical Synthesis and Display of Phosphopeptides for Affinity Pull-Down Proteomics.

Author

Malene Brandt, Jens C. Madsen, Jakob Bunkenborg, Ole N. Jensen, Steen Gammeltoft, and Knud J. Jensen

Published

2006

2. Role of the Thymus and Kidney Graft in the Maintenance of Tolerance to Heart Grafts in Miniature Swine.

Author

Joshua D Mezrich, Louis C Benjamin, Jessica A Sachs, Stuart L Houser, Parsia A Vagefi, David H Sachs, Joren C Madsen, and Kazuhiko Yamada

Published

2005

3. In-situ X-ray powder diffraction studies of hydrothermal and thermal decomposition reactions of basic bismuth(iii) nitrates in the temperature range 20–650 °C.

Author

Axel Nørlund Christensen, Torben René Jensen, Nicola V. Y. Scarlett, Ian C. Madsen, Jonathan C. Hanson, and Angela Altomare

Published

2003

4. Guest Editorial Optical Signal Processing.

Author

J. Azana, C. Madsen, K. Takiguchi, and G. Cincotti

Abstract

The twenty-seven papers in this special section are devoted to optical signal processing. Some of the topics covered include: waveform generation; coherent photonic processing; A/D conversion; spatially resolved detection; active optical filters; high spatial resolution; and boundless-range optics. [ABSTRACT FROM PUBLISHER]

Published

2006

5. Eight Millisecond Pulsars Discovered in the Arecibo PALFA Survey.

Author

E. Parent, V. M. Kaspi, S. M. Ransom, P. C. C. Freire, A. Brazier, F. Camilo, S. Chatterjee, J. M. Cordes, F. Crawford, J. S. Deneva, R. D. Ferdman, J. W. T. Hessels, J. van Leeuwen, A. G. Lyne, E. C. Madsen, M. A. McLaughlin, C. Patel, P. Scholz, I. H. Stairs, and B. W. Stappers

Subjects

BINARY pulsars, PULSARS, PULSAR detection

Abstract

We report on eight millisecond pulsars (MSPs) in binary systems discovered with the Arecibo L-Band Feed Array (PALFA) pulsar survey. Phase-coherent timing solutions derived from 2.5–5 yr of observations carried out at the Arecibo and Jodrell Bank observatories are provided. PSR J1921+1929 is a 2.65 ms pulsar in a 39.6 day orbit for which we detect γ-ray pulsations in archival Fermi data. PSR J1928+1245 is a very low-mass-function system with an orbital period of 3.3 hr that belongs to the non-eclipsing black widow population. We also present PSR J1932+1756, the longest-orbital-period (41.5 days) intermediate-mass binary pulsar known to date. In light of the numerous discoveries of binary MSPs over the past years, we characterize the Galactic distribution of known MSP binaries in terms of binary class. Our results support and strengthen previous claims that the scatter in the Galactic scale height distribution correlates inversely with the binary mass function. We provide evidence of observational biases against detecting the most recycled pulsars near the Galactic plane, which overestimates the scale height of lighter systems. A possible bimodality in the mass function of MSPs with massive white dwarfs is also reported. [ABSTRACT FROM AUTHOR]

Published

2019

6. THE REPEATING FAST RADIO BURST FRB 121102: MULTI-WAVELENGTH OBSERVATIONS AND ADDITIONAL BURSTS.

Author

P. Scholz, L. G. Spitler, J. W. T. Hessels, S. Chatterjee, J. M. Cordes, V. M. Kaspi, R. S. Wharton, C. G. Bassa, S. Bogdanov, F. Camilo, F. Crawford, J. Deneva, J. Van Leeuwen, R. Lynch, E. C. Madsen, M. A. Mclaughlin, M. Mickaliger, E. Parent, C. Patel, and S. M. Ransom

Subjects

PULSARS, RADIO sources (Astronomy), NEUTRON stars, X-rays, WAVELENGTH dispersive X-ray spectroscopy

Abstract

We report on radio and X-ray observations of the only known repeating Fast Radio Burst (FRB) source, FRB 121102. We have detected six additional radio bursts from this source: five with the Green Bank Telescope at 2 GHz, and one at 1.4 GHz with the Arecibo Observatory, for a total of 17 bursts from this source. All have dispersion measures consistent with a single value (∼559 pc cm−3) that is three times the predicted maximum Galactic contribution. The 2 GHz bursts have highly variable spectra like those at 1.4 GHz, indicating that the frequency structure seen across the individual 1.4 and 2 GHz bandpasses is part of a wideband process. X-ray observations of the FRB 121102 field with the Swift and Chandra observatories show at least one possible counterpart; however, the probability of chance superposition is high. A radio imaging observation of the field with the Jansky Very Large Array at 1.6 GHz yields a 5σ upper limit of 0.3 mJy on any point-source continuum emission. This upper limit, combined with archival Wide-field Infrared Survey Explorer 22 μm and IPHAS Hα surveys, rules out the presence of an intervening Galactic H ii region. We update our estimate of the FRB detection rate in the PALFA survey to be FRBs sky−1 day−1 (95% confidence) for peak flux density at 1.4 GHz above 300 mJy. We find that the intrinsic widths of the 12 FRB 121102 bursts from Arecibo are, on average, significantly longer than the intrinsic widths of the 13 single-component FRBs detected with the Parkes telescope. [ABSTRACT FROM AUTHOR]

Published

2016

7. DISCOVERY AND FOLLOW-UP OF ROTATING RADIO TRANSIENTS WITH THE GREEN BANK AND LOFAR TELESCOPES.

Author

C. Karako-Argaman, V. M. Kaspi, R. S. Lynch, J. W. T. Hessels, V. I. Kondratiev, M. A. McLaughlin, S. M. Ransom, A. M. Archibald, J. Boyles, F. A. Jenet, D. L. Kaplan, L. Levin, D. R. Lorimer, E. C. Madsen, M. S. E. Roberts, X. Siemens, I. H. Stairs, K. Stovall, J. K. Swiggum, and J. van Leeuwen

Subjects

DRAKE equation, PULSATING stars, PULSARS, ASTROPHYSICS, ASTRONOMY

Abstract

We have discovered 21 Rotating Radio Transients (RRATs) in data from the Green Bank Telescope (GBT) 350 MHz Drift-scan and the Green Bank North Celestial Cap pulsar surveys using a new candidate sifting algorithm. RRATs are pulsars with sporadic emission that are detected through their bright single pulses rather than Fourier domain searches. We have developed RRATtrap, a single-pulse sifting algorithm that can be integrated into pulsar survey data analysis pipelines in order to find RRATs and Fast Radio Bursts. We have conducted follow-up observations of our newly discovered sources at several radio frequencies using the GBT and Low Frequency Array, yielding improved positions and measurements of their periods, dispersion measures (DMs), and burst rates, as well as phase-coherent timing solutions for four of them. The new RRATs have DMs ranging from 15 to 97 , periods of 240 ms to 3.4 s, and estimated burst rates of 20 to 400 pulses hr−1 at 350 MHz. We use this new sample of RRATs to perform statistical comparisons between RRATs and canonical pulsars in order to shed light on the relationship between the two populations. We find that the DM and spatial distributions of the RRATs agree with those of the pulsars found in the same survey. We find evidence that slower pulsars (i.e., ms) are preferentially more likely to emit bright single pulses than are faster pulsars ( ms), although this conclusion is tentative. Our results are consistent with the proposed link between RRATs, transient pulsars, and canonical pulsars as sources in various parts of the pulse activity spectrum. [ABSTRACT FROM AUTHOR]

Published

2015

8. Cover Picture: On-Bead Chemical Synthesis and Display of Phosphopeptides for Affinity Pull-Down Proteomics (ChemBioChem 4/2006).

Author

Malene Brandt, Jens C. Madsen, Jakob Bunkenborg, Ole N. Jensen, Steen Gammeltoft, and Knud J. Jensen

Published

2006