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2. Beam Extraction From The Recycler Ring To P1 Line At Fermilab

Author

Xiao, M., Capista, D., Adams, P., Morris, D., Yang, M. J., and Hazewood, K.

Subjects
Physics - Accelerator Physics
Abstract

The transfer line for beam extraction from the Recycler ring to P1 line provides a way to deliver 8 GeV kinetic energy protons from the Booster to the Delivery ring, via the Recycler, using existing beam transport lines, and without the need for new civil construction. It was designed in 2012. The kicker magnets at RR520 and the lambertson magnet at RR522 in the RR were installed in 2014 Summer Shutdown, the elements of RR to P1 Stub (permanent quads, trim quads, correctors, BPMs, the toroid at 703 and vertical bending dipole at V703 (ADCW) were installed in 2015 Summer Shutdown. On Tuesday, June 21, 2016, beam line from the Recycler Ring to P1 line was commissioned. The detailed results will be presented in this report., Comment: 3 pp

Published
2017

3. First measurement of muon-neutrino disappearance in NOvA

Author

Adamson, P., Ader, C., Andrews, M., Anfimov, N., Anghel, I., Arms, K., Arrieta-Diaz, E., Aurisano, A., Ayres, D., Backhouse, C., Baird, M., Bambah, B. A., Bays, K., Bernstein, R., Betancourt, M., Bhatnagar, V., Bhuyan, B., Bian, J., Biery, K., Blackburn, T., Bocean, V., Bogert, D., Bolshakova, A., Bowden, M., Bower, C., Broemmelsiek, D., Bromberg, C., Brunetti, G., Bu, X., Butkevich, A., Capista, D., Catano-Mur, E., Chase, T. R., Childress, S., Choudhary, B. C., Chowdhury, B., Coan, T. E., Coelho, J. A. B., Colo, M., Cooper, J., Corwin, L., Cronin-Hennessy, D., Cunningham, A., Davies, G. S., Davies, J. P., Del Tutto, M., Derwent, P. F., Deepthi, K. N., Demuth, D., Desai, S., Deuerling, G., Devan, A., Dey, J., Dharmapalan, R., Ding, P., Dixon, S., Djurcic, Z., Dukes, E. C., Duyang, H., Ehrlich, R., Feldman, G. J., Felt, N., Fenyves, E. J., Flumerfelt, E., Foulkes, S., Frank, M. J., Freeman, W., Gabrielyan, M., Gallagher, H. R., Gebhard, M., Ghosh, T., Gilbert, W., Giri, A., Goadhouse, S., Gomes, R. A., Goodenough, L., Goodman, M. C., Grichine, V., Grossman, N., Group, R., Grudzinski, J., Guarino, V., Guo, B., Habig, A., Handler, T., Hartnell, J., Hatcher, R., Hatzikoutelis, A., Heller, K., Howcroft, C., Huang, J., Huang, X., Hylen, J., Ishitsuka, M., Jediny, F., Jensen, C., Jensen, D., Johnson, C., Jostlein, H., Kafka, G. K., Kamyshkov, Y., Kasahara, S. M. S., Kasetti, S., Kephart, K., Koizumi, G., Kotelnikov, S., Kourbanis, I., Krahn, Z., Kravtsov, V., Kreymer, A., Kulenberg, Ch., Kumar, A., Kutnink, T., Kwarciancy, R., Kwong, J., Lang, K., Lee, A., Lee, W. M., Lee, K., Lein, S., Liu, J., Lokajicek, M., Lozier, J., Lu, Q., Lucas, P., Luchuk, S., Lukens, P., Lukhanin, G., Magill, S., Maan, K., Mann, W. A., Marshak, M. L., Martens, M., Martincik, J., Mason, P., Matera, K., Mathis, M., Matveev, V., Mayer, N., McCluskey, E., Mehdiyev, R., Merritt, H., Messier, M. D., Meyer, H., Miao, T., Michael, D., Mikheyev, S. P., Miller, W. H., Mishra, S. R., Mohanta, R., Moren, A., Mualem, L., Muether, M., Mufson, S., Musser, J., Newman, H. B., Nelson, J. K., Niner, E., Norman, A., Nowak, J., Oksuzian, Y., Olshevskiy, A., Oliver, J., Olson, T., Paley, J., Pandey, P., Para, A., Patterson, R. B., Pawloski, G., Pearson, N., Perevalov, D., Pershey, D., Peterson, E., Petti, R., Phan-Budd, S., Piccoli, L., Pla-Dalmau, A., Plunkett, R. K., Poling, R., Potukuchi, B., Psihas, F., Pushka, D., Qiu, X., Raddatz, N., Radovic, A., Rameika, R. A., Ray, R., Rebel, B., Rechenmacher, R., Reed, B., Reilly, R., Rocco, D., Rodkin, D., Ruddick, K., Rusack, R., Ryabov, V., Sachdev, K., Sahijpal, S., Sahoo, H., Samoylov, O., Sanchez, M. C., Saoulidou, N., Schlabach, P., Schneps, J., Schroeter, R., Sepulveda-Quiroz, J., Shanahan, P., Sherwood, B., Sheshukov, A., Singh, J., Singh, V., Smith, A., Smith, D., Smolik, J., Solomey, N., Sotnikov, A., Sousa, A., Soustruznik, K., Stenkin, Y., Strait, M., Suter, L., Talaga, R. L., Tamsett, M. C., Tariq, S., Tas, P., Tesarek, R. J., Thayyullathil, R. B., Thomsen, K., Tian, X., Tognini, S. C., Toner, R., Trevor, J., Tzanakos, G., Urheim, J., Vahle, P., Valerio, L., Vinton, L., Vrba, T., Waldron, A. V., Wang, B., Wang, Z., Weber, A., Wehmann, A., Whittington, D., Wilcer, N., Wildberger, R., Wildman, D., Williams, K., Wojcicki, S. G., Wood, K., Xiao, M., Xin, T., Yadav, N., Yang, S., Zadorozhnyy, S., Zalesak, J., Zamorano, B., Zhao, A., Zirnstein, J., and Zwaska, R.

Subjects
High Energy Physics - Experiment, Physics - Instrumentation and Detectors
Abstract

This paper reports the first measurement using the NOvA detectors of $\nu_\mu$ disappearance in a $\nu_\mu$ beam. The analysis uses a 14 kton-equivalent exposure of $2.74 \times 10^{20}$ protons-on-target from the Fermilab NuMI beam. Assuming the normal neutrino mass hierarchy, we measure $\Delta m^{2}_{32}=(2.52^{+0.20}_{-0.18})\times 10^{-3}$ eV$^{2}$ and $\sin^2\theta_{23}$ in the range 0.38-0.65, both at the 68% confidence level, with two statistically-degenerate best fit points at $\sin^2\theta_{23} = $ 0.43 and 0.60. Results for the inverted mass hierarchy are also presented., Comment: 8 pages, 6 figures. Submitted to Phys. Rev. D Rapid Communications

Published
2016
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4. First measurement of electron neutrino appearance in NOvA

Author

Adamson, P., Ader, C., Andrews, M., Anfimov, N., Anghel, I., Arms, K., Arrieta-Diaz, E., Aurisano, A., Ayres, D. S., Backhouse, C., Baird, M., Bambah, B. A., Bays, K., Bernstein, R., Betancourt, M., Bhatnagar, V., Bhuyan, B., Bian, J., Biery, K., Blackburn, T., Bocean, V., Bogert, D., Bolshakova, A., Bowden, M., Bower, C., Broemmelsiek, D., Bromberg, C., Brunetti, G., Bu, X., Butkevich, A., Capista, D., Catano-Mur, E., Chase, T. R., Childress, S., Choudhary, B. C., Chowdhury, B., Coan, T. E., Coelho, J. A. B., Colo, M., Cooper, J., Corwin, L., Cronin-Hennessy, D., Cunningham, A., Davies, G. S., Davies, J. P., Del Tutto, M., Derwent, P. F., Deepthi, K. N., Demuth, D., Desai, S., Deuerling, G., Devan, A., Dey, J., Dharmapalan, R., Ding, P., Dixon, S., Djurcic, Z., Dukes, E. C., Duyang, H., Ehrlich, R., Feldman, G. J., Felt, N., Fenyves, E. J., Flumerfelt, E., Foulkes, S., Frank, M. J., Freeman, W., Gabrielyan, M., Gallagher, H. R., Gebhard, M., Ghosh, T., Gilbert, W., Giri, A., Goadhouse, S., Gomes, R. A., Goodenough, L., Goodman, M. C., Grichine, V., Grossman, N., Group, R., Grudzinski, J., Guarino, V., Guo, B., Habig, A., Handler, T., Hartnell, J., Hatcher, R., Hatzikoutelis, A., Heller, K., Howcroft, C., Huang, J., Huang, X., Hylen, J., Ishitsuka, M., Jediny, F., Jensen, C., Jensen, D., Johnson, C., Jostlein, H., Kafka, G. K., Kamyshkov, Y., Kasahara, S. M. S., Kasetti, S., Kephart, K., Koizumi, G., Kotelnikov, S., Kourbanis, I., Krahn, Z., Kravtsov, V., Kreymer, A., Kulenberg, Ch., Kumar, A., Kutnink, T., Kwarciancy, R., Kwong, J., Lang, K., Lee, A., Lee, W. M., Lee, K., Lein, S., Liu, J., Lokajicek, M., Lozier, J., Lu, Q., Lucas, P., Luchuk, S., Lukens, P., Lukhanin, G., Magill, S., Maan, K., Mann, W. A., Marshak, M. L., Martens, M., Martincik, J., Mason, P., Matera, K., Mathis, M., Matveev, V., Mayer, N., McCluskey, E., Mehdiyev, R., Merritt, H., Messier, M. D., Meyer, H., Miao, T., Michael, D., Mikheyev, S. P., Miller, W. H., Mishra, S. R., Mohanta, R., Moren, A., Mualem, L., Muether, M., Mufson, S., Musser, J., Newman, H. B., Nelson, J. K., Niner, E., Norman, A., Nowak, J., Oksuzian, Y., Olshevskiy, A., Oliver, J., Olson, T., Paley, J., Pandey, P., Para, A., Patterson, R. B., Pawloski, G., Pearson, N., Perevalov, D., Pershey, D., Peterson, E., Petti, R., Phan-Budd, S., Piccoli, L., Pla-Dalmau, A., Plunkett, R. K., Poling, R., Potukuchi, B., Psihas, F., Pushka, D., Qiu, X., Raddatz, N., Radovic, A., Rameika, R. A., Ray, R., Rebel, B., Rechenmacher, R., Reed, B., Reilly, R., Rocco, D., Rodkin, D., Ruddick, K., Rusack, R., Ryabov, V., Sachdev, K., Sahijpal, S., Sahoo, H., Samoylov, O., Sanchez, M. C., Saoulidou, N., Schlabach, P., Schneps, J., Schroeter, R., Sepulveda-Quiroz, J., Shanahan, P., Sherwood, B., Sheshukov, A., Singh, J., Singh, V., Smith, A., Smith, D., Smolik, J., Solomey, N., Sotnikov, A., Sousa, A., Soustruznik, K., Stenkin, Y., Strait, M., Suter, L., Talaga, R. L., Tamsett, M. C., Tariq, S., Tas, P., Tesarek, R. J., Thayyullathil, R. B., Thomsen, K., Tian, X., Tognini, S. C., Toner, R., Trevor, J., Tzanakos, G., Urheim, J., Vahle, P., Valerio, L., Vinton, L., Vrba, T., Waldron, A. V., Wang, B., Wang, Z., Weber, A., Wehmann, A., Whittington, D., Wilcer, N., Wildberger, R., Wildman, D., Williams, K., Wojcicki, S. G., Wood, K., Xiao, M., Xin, T., Yadav, N., Yang, S., Zadorozhnyy, S., Zalesak, J., Zamorano, B., Zhao, A., Zirnstein, J., and Zwaska, R.

Subjects
High Energy Physics - Experiment, Physics - Instrumentation and Detectors
Abstract

We report results from the first search for $\nu_\mu\to\nu_e$ transitions by the NOvA experiment. In an exposure equivalent to $2.74\times10^{20}$ protons-on-target in the upgraded NuMI beam at Fermilab, we observe 6 events in the Far Detector, compared to a background expectation of $0.99\pm0.11$ (syst.) events based on the Near Detector measurement. A secondary analysis observes 11 events with a background of $1.07\pm0.14$ (syst.). The $3.3\sigma$ excess of events observed in the primary analysis disfavors $0.1\pi < \delta_{CP} < 0.5\pi$ in the inverted mass hierarchy at the 90% C.L., Comment: 7 pages, 4 figures. Minor updates to match version accepted by journal

Published
2016
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5. First Measurement of Electron Neutrino Appearance in NOvA

Author

Adamson, P, Ader, C, Andrews, M, Anfimov, N, Anghel, I, Arms, K, Arrieta-Diaz, E, Aurisano, A, Ayres, DS, Backhouse, C, Baird, M, Bambah, BA, Bays, K, Bernstein, R, Betancourt, M, Bhatnagar, V, Bhuyan, B, Bian, J, Biery, K, Blackburn, T, Bocean, V, Bogert, D, Bolshakova, A, Bowden, M, Bower, C, Broemmelsiek, D, Bromberg, C, Brunetti, G, Bu, X, Butkevich, A, Capista, D, Catano-Mur, E, Chase, TR, Childress, S, Choudhary, BC, Chowdhury, B, Coan, TE, Coelho, JAB, Colo, M, Cooper, J, Corwin, L, Cronin-Hennessy, D, Cunningham, A, Davies, GS, Davies, JP, Del Tutto, M, Derwent, PF, Deepthi, KN, Demuth, D, Desai, S, Deuerling, G, Devan, A, Dey, J, Dharmapalan, R, Ding, P, Dixon, S, Djurcic, Z, Dukes, EC, Duyang, H, Ehrlich, R, Feldman, GJ, Felt, N, Fenyves, EJ, Flumerfelt, E, Foulkes, S, Frank, MJ, Freeman, W, Gabrielyan, M, Gallagher, HR, Gebhard, M, Ghosh, T, Gilbert, W, Giri, A, Goadhouse, S, Gomes, RA, Goodenough, L, Goodman, MC, Grichine, V, Grossman, N, Group, R, Grudzinski, J, Guarino, V, Guo, B, Habig, A, Handler, T, Hartnell, J, Hatcher, R, Hatzikoutelis, A, Heller, K, Howcroft, C, Huang, J, Huang, X, Hylen, J, Ishitsuka, M, Jediny, F, Jensen, C, Jensen, D, Johnson, C, Jostlein, H, and Kafka, GK

Subjects
NOvA Collaboration, hep-ex, physics.ins-det, Mathematical Sciences, Physical Sciences, Engineering, General Physics
Abstract

We report results from the first search for ν_{μ}→ν_{e} transitions by the NOvA experiment. In an exposure equivalent to 2.74×10^{20} protons on target in the upgraded NuMI beam at Fermilab, we observe 6 events in the Far Detector, compared to a background expectation of 0.99±0.11(syst) events based on the Near Detector measurement. A secondary analysis observes 11 events with a background of 1.07±0.14(syst). The 3.3σ excess of events observed in the primary analysis disfavors 0.1π

Published
2016

6. First measurement of muon-neutrino disappearance in NOvA

Author

Adamson, P, Ader, C, Andrews, M, Anfimov, N, Anghel, I, Arms, K, Arrieta-Diaz, E, Aurisano, A, Ayres, DS, Backhouse, C, Baird, M, Bambah, BA, Bays, K, Bernstein, R, Betancourt, M, Bhatnagar, V, Bhuyan, B, Bian, J, Biery, K, Blackburn, T, Bocean, V, Bogert, D, Bolshakova, A, Bowden, M, Bower, C, Broemmelsiek, D, Bromberg, C, Brunetti, G, Bu, X, Butkevich, A, Capista, D, Catano-Mur, E, Chase, TR, Childress, S, Choudhary, BC, Chowdhury, B, Coan, TE, Coelho, JAB, Colo, M, Cooper, J, Corwin, L, Cronin-Hennessy, D, Cunningham, A, Davies, GS, Davies, JP, Del Tutto, M, Derwent, PF, Deepthi, KN, Demuth, D, Desai, S, Deuerling, G, Devan, A, Dey, J, Dharmapalan, R, Ding, P, Dixon, S, Djurcic, Z, Dukes, EC, Duyang, H, Ehrlich, R, Feldman, GJ, Felt, N, Fenyves, EJ, Flumerfelt, E, Foulkes, S, Frank, MJ, Freeman, W, Gabrielyan, M, Gallagher, HR, Gebhard, M, Ghosh, T, Gilbert, W, Giri, A, Goadhouse, S, Gomes, RA, Goodenough, L, Goodman, MC, Grichine, V, Grossman, N, Group, R, Grudzinski, J, Guarino, V, Guo, B, Habig, A, Handler, T, Hartnell, J, Hatcher, R, Hatzikoutelis, A, Heller, K, Howcroft, C, Huang, J, Huang, X, Hylen, J, Ishitsuka, M, Jediny, F, Jensen, C, Jensen, D, Johnson, C, Jostlein, H, and Kafka, GK

Subjects
hep-ex, physics.ins-det
Abstract

This paper reports the first measurement using the NOvA detectors of νμ disappearance in a νμ beam. The analysis uses a 14 kton-equivalent exposure of 2.74×1020 protons-on-target from the Fermilab NuMI beam. Assuming the normal neutrino mass hierarchy, we measure Δm322=(2.52-0.18+0.20)×10-3 eV2 and sin2θ23 in the range 0.38-0.65, both at the 68% confidence level, with two statistically degenerate best-fit points at sin2θ23=0.43 and 0.60. Results for the inverted mass hierarchy are also presented.

Published
2016

7. 6 Batch Injection and Slipped Beam Tune Measurements in Fermilab's Main Injector

Author

Scott, D. J., Capista, D., Kourbanis, I., Seiya, K., and Yan, M. -J.

Subjects
Physics - Accelerator Physics
Abstract

During Nova operations it is planned to run the Fermilab Recycler in a 12 batch slip stacking mode. In preparation for this, measurements of the tune during a six batch injection and then as the beam is slipped by changing the RF frequency, but without a 7th injection, have been carried out in the Main Injector. The coherent tune shifts due to the changing beam intensity were measured and compared well with the theoretically expected tune shift. The tune shifts due to changing RF frequency, required for slip stacking, also compare well with the linear theory, although some nonlinear affects are apparent at large frequency changes. These results give us confidence that the expected tunes shifts during 12 batch slip stacking Recycler operations can be accommodated., Comment: 3 pp. 3rd International Particle Accelerator Conference (IPAC 2012) 20-25 May 2012, New Orleans, Louisiana

Published
2013

8. Coalescing at 8 GeV in the Fermilab Main Injector

Author

Scott, D. J., Capista, D., Chase, B., Dye, J., Kourbanis, I., Seiya, K., and Yang, M. -J.

Subjects
Physics - Accelerator Physics
Abstract

For Project X, it is planned to inject a beam of 3 10**11 particles per bunch into the Main Injector. To prepare for this by studying the effects of higher intensity bunches in the Main Injector it is necessary to perform coalescing at 8 GeV. The results of a series of experiments and simulations of 8 GeV coalescing are presented. To increase the coalescing efficiency adiabatic reduction of the 53 MHz RF is required, resulting in ~70% coalescing efficiency of 5 initial bunches. Data using wall current monitors has been taken to compare previous work and new simulations for 53 MHz RF reduction, bunch rotations and coalescing, good agreement between experiment and simulation was found. Possible schemes to increase the coalescing efficiency and generate even higher intensity bunches are discussed. These require improving the timing resolution of the low level RF and/or tuning the adiabatic voltage reduction of the 53 MHz., Comment: 3 pp. 3rd International Particle Accelerator Conference (IPAC 2012) 20-25 May 2012, New Orleans, Louisiana

Published
2013

9. Single/Few Bunch Space Charge Effects at 8-GeV in the Fermilab Main Injector

Author

Scott, D. J., Capista, D., Kourbanis, I., Seiya, K., and Yang, M. -J.

Subjects
Physics - Accelerator Physics
Abstract

For Project X, it is planned to inject a beam of 3x10**11 particles per bunch into the Main Injector. Therefore, at 8-GeV, there will be increased space charge tune shifts and an increased incoherent tune spread. In preparation for these higher intensity bunches exploratory studies have commenced looking at the transmission of different intensity bunches at different tunes. An experiment is described with results for bunch intensities between 20 and 300 10**9 particles. To achieve the highest intensity bunches coalescing at 8-GeV is required, resulting in a longer bunch length. Comparisons show that similar transmission curves are obtained when the intensity and bunch length have increased by factors of 3.2 and 3.4 respectively, indicating the incoherent tune shifts are similar, as expected from theory. The results of these experiments will be used in conjugation with simulations to further study high intensity bunches in the Main Injector., Comment: 3 pp. 3rd International Particle Accelerator Conference (IPAC 2012) 20-25 May 2012, New Orleans, Louisiana

Published
2013

10. Secondary Electron Yield Measurements of Fermilab's Main Injector Vacuum Vessel

Author

Scott, D. J., Capista, D., Duel, K. L., Zwaska, R. M., Greenwald, S., Hartung, W., Li, Y., Moore, T. P., Palmer, M. A., Kirby, R., Pivi, M., and Wang, L.

Subjects
Physics - Accelerator Physics
Abstract

We discuss the progress made on a new installation in Fermilab's Main Injector that will help investigate the electron cloud phenomenon by making direct measurements of the secondary electron yield (SEY) of samples irradiated in the accelerator. In the Project X upgrade the Main Injector will have its beam intensity increased by a factor of three compared to current operations. This may result in the beam being subject to instabilities from the electron cloud. Measured SEY values can be used to further constrain simulations and aid our extrapolation to Project X intensities. The SEY test-stand, developed in conjunction with Cornell and SLAC, is capable of measuring the SEY from samples using an incident electron beam when the samples are biased at different voltages. We present the design and manufacture of the test-stand and the results of initial laboratory tests on samples prior to installation., Comment: 3 pp. 3rd International Particle Accelerator Conference (IPAC 2012) 20-25 May 2012, New Orleans, Louisiana

Published
2013

11. A gap clearing kicker for Main Injector

Author

Kourbanis, I., Adamson, P., Biggs, J., Brown, B., Capista, D., Jensen, C. C., Krafczyk, G. E., Morris, D. K., Scott, D., Seiya, K., Ward, S. R., Wu, G., and Yang, M. -J.

Subjects
Physics - Accelerator Physics
Abstract

Fermilab Main Injector has been operating at high Beam Power levels since 2008 when multi-batch slip stacking became operational. In order to maintain and increase the beam power levels the localized beam loss due to beam left over in the injection kicker gap during slip stacking needs to be addressed. A set of gap clearing kickers that kick any beam left in the injection gap to the beam abort have been built. The kickers were installed in the summer of 2009 and became operational in November of 2010. The kicker performance and its effect on the beam losses will be described., Comment: 3 pp. Particle Accelerator, 24th Conference (PAC'11) 2011. 28 Mar - 1 Apr 2011. New York, USA

Published
2012

12. Demonstration of Communication using Neutrinos

Author

Stancil, D. D., Adamson, P., Alania, M., Aliaga, L., Andrews, M., Del Castillo, C. Araujo, Bagby, L., Alba, J. L. Bazo, Bodek, A., Boehnlein, D., Bradford, R., Brooks, W. K., Budd, H., Butkevich, A., Caicedo, D. A. M., Capista, D. P., Castromonte, C. M., Chamorro, A., Charlton, E., Christy, M. E., Chvojka, J., Conrow, P. D., Danko, I., Day, M., Devan, J., Downey, J. M., Dytman, S. A., Eberly, B., Fein, J. R., Felix, J., Fields, L., Fiorentini, G. A., Gago, A. M., Gallagher, H., Gran, R., Grange, J., Griffin, J., Griffin, T., Hahn, E., Harris, D. A., Higuera, A., Hobbs, J. A., Hoffman, C. M., Hughes, B. L., Hurtado, K., Judd, A., Kafka, T., Kephart, K., Kilmer, J., Kordosky, M., Kulagin, S. A., Kuznetsov, V. A., Lanari, M., Le, T., Lee, H., Loiacono, L., Maggi, G., Maher, E., Manly, S., Mann, W. A., Marshall, C. M., McFarland, K. S., Mislivec, A., McGowan, A. M., Morfin, J. G., da Motta, H., Mousseau, J., Nelson, J. K., Niemiec-Gielata, J. A., Ochoa, N., Osmanov, B., Osta, J., Palomino, J. L., Paradis, J. S., Paolone, V., Park, J., Pena, C., Perdue, G., Lara, C. E. Perez, Peterman, A. M., Pla-Dalmau, A., Pollock, B., Prokoshin, F., Ransome, R. D., Ray, H., Reyhan, M., Rubinov, P., Ruggiero, D., Sands, O. S., Schellman, H., Schmitz, D. W., Schulte, E. C., Simon, C., Salinas, C. J. Solano, Stefanski, R., Stevens, R. G., Tagg, N., Takhistov, V., Tice, B. G., Tilden, R. N., Velasquez, J. P., Vergalosova, I., Voirin, J., Walding, J., Walker, B. J., Walton, T., Wolcott, J., Wytock, T. P., Zavala, G., Zhang, D., Zhu, L. Y., and Ziemer, B. P.

Subjects
High Energy Physics - Experiment
Abstract

Beams of neutrinos have been proposed as a vehicle for communications under unusual circumstances, such as direct point-to-point global communication, communication with submarines, secure communications and interstellar communication. We report on the performance of a low-rate communications link established using the NuMI beam line and the MINERvA detector at Fermilab. The link achieved a decoded data rate of 0.1 bits/sec with a bit error rate of 1% over a distance of 1.035 km, including 240 m of earth., Comment: 10 pages, 7 figures, updated with final figures used in Modern Physics Letters A publication

Published
2012
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13. The upgraded data acquisition system for beam loss monitoring at the Fermilab Tevatron and Main Injector

Author

Baumbaugh, A., Briegel, C., Brown, B. C., Capista, D., Drennan, C., Fellenz, B., Knickerbocker, K., Lewis, J. D., Marchionni, A., Needles, C., Olson, M., Pordes, S., Shi, Z., Still, D., Thurman-Keup, R., Utes, M., and Wu, J.

Subjects
Physics - Instrumentation and Detectors, Physics - Accelerator Physics
Abstract

A VME-based data acquisition system for beam-loss monitors has been developed and is in use in the Tevatron and Main Injector accelerators at the Fermilab complex. The need for enhanced beam-loss protection when the Tevatron is operating in collider-mode was the main driving force for the new design. Prior to the implementation of the present system, the beam-loss monitor system was disabled during collider operation and protection of the Tevatron magnets relied on the quench protection system. The new Beam-Loss Monitor system allows appropriate abort logic and thresholds to be set over the full set of collider operating conditions. The system also records a history of beam-loss data prior to a beam-abort event for post-abort analysis. Installation of the Main Injector system occurred in the fall of 2006 and the Tevatron system in the summer of 2007. Both systems were fully operation by the summer of 2008. In this paper we report on the overall system design, provide a description of its normal operation, and show a number of examples of its use in both the Main Injector and Tevatron., Comment: 24 pages

Published
2011
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14. Fast beam stacking using RF barriers

Author

Chou, W., Capista, D., Griffin, J., Ng, K-Y., and Wildman, D.

Subjects
Physics - Accelerator Physics, Physics - Instrumentation and Detectors
Abstract

Two barrier RF systems were fabricated, tested and installed in the Fermilab Main Injector. Each can provide 8 kV rectangular pulses (the RF barriers) at 90 kHz. When a stationary barrier is combined with a moving barrier, injected beams from the Booster can be continuously deflected, folded and stacked in the Main Injector, which leads to doubling of the beam intensity. This paper gives a report on the beam experiment using this novel technology., Comment: 2007 Particle Accelerator Conference (PAC07)

Published
2008

15. Operational aspects of the Main Injector large aperture quadrupole (WQB)

Author

Chou, W., Bartelson, L., Brown, B., Capista, D., Crisp, J., DiMarco, J., Fitzgerald, J., Glass, H., Harding, D., Johnson, D., Kashikhin, V., Kourbanis, I., Prieto, P., Robotham, W., Sager, T., Tartaglia, M., Valerio, L., Webber, R., Wendt, M., Wolff, D., and Yang, M.

Subjects
Physics - Accelerator Physics
Abstract

A two-year Large Aperture Quadrupole (WQB) Project was completed in the summer of 2006 at Fermilab. Nine WQBs were designed, fabricated and bench-tested by the Technical Division. Seven of them were installed in the Main Injector and the other two for spares. They perform well. The aperture increase meets the design goal and the perturbation to the lattice is minimal. The machine acceptance in the injection and extraction regions is increased from 40pi to 60pi mm-mrad. This paper gives a brief report of the operation and performance of these magnets., Comment: 2007 Particle Accelerator Conference (PAC07)

Published
2008
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18. Germanium arsenide nanosheets applied as twodimensional field emitters

Author

Giubileo, F., Grillo, A., Pelella, A., Faella, E., Camilli, L., Sun, J. B., Capista, D., Passacantando, M., and Di Bartolomeo, A.

Abstract

The IV-V groups binary compound germanium arsenide (GeAs) is a semiconductor that can be easily exfoliated in very thin nanosheets and is characterized by a band gap ranging from 0.6 eV (bulk form) up to 2.1 eV (monolayer). We investigate the field emission characteristics of exfoliated multilayer GeAs nanosheets by means of a tip-anode setup, where a nanomanipulated W-tip is positioned in front of the GeAs emitting layer at nanometric distance, all controlled inside a scanning electron microscope. We demonstrate that GeAs multilayers are suitable to develop electron sources, with turn-on field of the order of 102Vμm-1, and field enhancement factor of about 70.

Published
2021
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19. Magnet reliability in the Fermilab main injector and implications for the ILC

Author

Tartaglia, M.A., Blowers, J., Capista, D., Harding, D.J., Kiemschies, O., Rahimzadeh-Kalaleh, S., and Tompkins, J.C.

Subjects
Colliders (Nuclear physics) -- Design and construction, Electromagnetism -- Analysis, Electromagnets -- Heating, cooling and ventilation, Business, Electronics, Electronics and electrical industries
Abstract

The performance and the reliability of the magnets built the Fermilab Main Injector machine are assessed. The implications for the electromagnetic reliability of similar magnet styles used at the International Linear Collider (ILC) are discussed.

Published
2008

21. First measurement of muon-neutrino disappearance in NOvA

Author

Adamson, P. Ader, C. Andrews, M. Anfimov, N. Anghel, I. and Arms, K. Arrieta-Diaz, E. Aurisano, A. Ayres, D. S. and Backhouse, C. Baird, M. Bambah, B. A. Bays, K. and Bernstein, R. Betancourt, M. Bhatnagar, V. Bhuyan, B. and Bian, J. Biery, K. Blackburn, T. Bocean, V. Bogert, D. and Bolshakova, A. Bowden, M. Bower, C. Broemmelsiek, D. and Bromberg, C. Brunetti, G. Bu, X. Butkevich, A. Capista, D. Catano-Mur, E. Chase, T. R. Childress, S. Choudhary, B. C. Chowdhury, B. Coan, T. E. Coelho, J. A. B. Colo, M. Cooper, J. Corwin, L. Cronin-Hennessy, D. Cunningham, A. Davies, G. S. Davies, J. P. Del Tutto, M. Derwent, P. F. Deepthi, K. N. Demuth, D. Desai, S. Deuerling, G. and Devan, A. Dey, J. Dharmapalan, R. Ding, P. Dixon, S. and Djurcic, Z. Dukes, E. C. Duyang, H. Ehrlich, R. Feldman, G. J. Felt, N. Fenyves, E. J. Flumerfelt, E. Foulkes, S. and Frank, M. J. Freeman, W. Gabrielyan, M. Gallagher, H. R. and Gebhard, M. Ghosh, T. Gilbert, W. Giri, A. and Goadhouse, S. Gomes, R. A. Goodenough, L. Goodman, M. C. and Grichine, V. Grossman, N. Group, R. Grudzinski, J. and Guarino, V. Guo, B. Habig, A. Handler, T. Hartnell, J. and Hatcher, R. Hatzikoutelis, A. Heller, K. Howcroft, C. and Huang, J. Huang, X. Hylen, J. Ishitsuka, M. Jediny, F. Jensen, C. Jensen, D. Johnson, C. Jostlein, H. and Kafka, G. K. Kamyshkov, Y. Kasahara, S. M. S. Kasetti, S. and Kephart, K. Koizumi, G. Kotelnikov, S. Kourbanis, I. and Krahn, Z. Kravtsov, V. Kreymer, A. Kulenberg, Ch. Kumar, A. Kutnink, T. Kwarciancy, R. Kwong, J. Lang, K. and Lee, A. Lee, W. M. Lee, K. Lein, S. Liu, J. and Lokajicek, M. Lozier, J. Lu, Q. Lucas, P. Luchuk, S. and Lukens, P. Lukhanin, G. Magill, S. Maan, K. Mann, W. A. and Marshak, M. L. Martens, M. Martincik, J. Mason, P. and Matera, K. Mathis, M. Matveev, V. Mayer, N. McCluskey, E. Mehdiyev, R. Merritt, H. Messier, M. D. Meyer, H. and Miao, T. Michael, D. Mikheyev, S. P. Miller, W. H. and Mishra, S. R. Mohanta, R. Moren, A. Mualem, L. Muether, M. Mufson, S. Musser, J. Newman, H. B. Nelson, J. K. and Niner, E. Norman, A. Nowak, J. Oksuzian, Y. Olshevskiy, A. Oliver, J. Olson, T. Paley, J. Pandey, P. Para, A. Patterson, R. B. Pawloski, G. Pearson, N. Perevalov, D. Pershey, D. Peterson, E. Petti, R. Phan-Budd, S. and Piccoli, L. Pla-Dalmau, A. Plunkett, R. K. Poling, R. and Potukuchi, B. Psihas, F. Pushka, D. Qiu, X. Raddatz, N. and Radovic, A. Rameika, R. A. Ray, R. Rebel, B. and Rechenmacher, R. Reed, B. Reilly, R. Rocco, D. Rodkin, D. Ruddick, K. Rusack, R. Ryabov, V. Sachdev, K. and Sahijpal, S. Sahoo, H. Samoylov, O. Sanchez, M. C. and Saoulidou, N. Schlabach, P. Schneps, J. Schroeter, R. and Sepulveda-Quiroz, J. Shanahan, P. Sherwood, B. Sheshukov, A. and Singh, J. Singh, V. Smith, A. Smith, D. Smolik, J. and Solomey, N. Sotnikov, A. Sousa, A. Soustruznik, K. and Stenkin, Y. Strait, M. Suter, L. Talaga, R. L. Tamsett, M. C. Tariq, S. Tas, P. Tesarek, R. J. Thayyullathil, R. B. Thomsen, K. Tian, X. Tognini, S. C. Toner, R. and Trevor, J. Tzanakos, G. Urheim, J. Vahle, P. Valerio, L. and Vinton, L. Vrba, T. Waldron, A. V. Wang, B. Wang, Z. and Weber, A. Wehmann, A. Whittington, D. Wilcer, N. and Wildberger, R. Wildman, D. Williams, K. Wojcicki, S. G. and Wood, K. Xiao, M. Xin, T. Yadav, N. Yang, S. and Zadorozhnyy, S. Zalesak, J. Zamorano, B. Zhao, A. and Zirnstein, J. Zwaska, R. NOvA Collaboration

Abstract

This paper reports the first measurement using the NOvA detectors of nu(mu) disappearance in a nu(mu) beam. The analysis uses a 14 kton-equivalent exposure of 2.74 x 10(20) protons-on-target from the Fermilab NuMI beam. Assuming the normal neutrino mass hierarchy, we measure Delta m(32)(2) = (2.52(-0.18)(+0.20)) x 10(-3) eV(2) and sin(2) theta(23) in the range 0.38-0.65, both at the 68% confidence level, with two statistically degenerate best-fit points at sin(2) theta(23) = 0.43 and 0.60. Results for the inverted mass hierarchy are also presented.

Published
2016

22. First Measurement of Electron Neutrino Appearance in NOvA

Author

Adamson, P. Ader, C. Andrews, M. Anfimov, N. Anghel, I. and Arms, K. Arrieta-Diaz, E. Aurisano, A. Ayres, D. S. and Backhouse, C. Baird, M. Bambah, B. A. Bays, K. and Bernstein, R. Betancourt, M. Bhatnagar, V. Bhuyan, B. and Bian, J. Biery, K. Blackburn, T. Bocean, V. Bogert, D. and Bolshakova, A. Bowden, M. Bower, C. Broemmelsiek, D. and Bromberg, C. Brunetti, G. Bu, X. Butkevich, A. Capista, D. Catano-Mur, E. Chase, T. R. Childress, S. Choudhary, B. C. Chowdhury, B. Coan, T. E. Coelho, J. A. B. Colo, M. Cooper, J. Corwin, L. Cronin-Hennessy, D. Cunningham, A. Davies, G. S. Davies, J. P. Del Tutto, M. Derwent, P. F. Deepthi, K. N. Demuth, D. Desai, S. Deuerling, G. and Devan, A. Dey, J. Dharmapalan, R. Ding, P. Dixon, S. and Djurcic, Z. Dukes, E. C. Duyang, H. Ehrlich, R. Feldman, G. J. Felt, N. Fenyves, E. J. Flumerfelt, E. Foulkes, S. and Frank, M. J. Freeman, W. Gabrielyan, M. Gallagher, H. R. and Gebhard, M. Ghosh, T. Gilbert, W. Giri, A. and Goadhouse, S. Gomes, R. A. Goodenough, L. Goodman, M. C. and Grichine, V. Grossman, N. Group, R. Grudzinski, J. and Guarino, V. Guo, B. Habig, A. Handler, T. Hartnell, J. and Hatcher, R. Hatzikoutelis, A. Heller, K. Howcroft, C. and Huang, J. Huang, X. Hylen, J. Ishitsuka, M. Jediny, F. Jensen, C. Jensen, D. Johnson, C. Jostlein, H. and Kafka, G. K. Kamyshkov, Y. Kasahara, S. M. S. Kasetti, S. and Kephart, K. Koizumi, G. Kotelnikov, S. Kourbanis, I. and Krahn, Z. Kravtsov, V. Kreymer, A. Kulenberg, Ch. Kumar, A. Kutnink, T. Kwarciancy, R. Kwong, J. Lang, K. and Lee, A. Lee, W. M. Lee, K. Lein, S. Liu, J. and Lokajicek, M. Lozier, J. Lu, Q. Lucas, P. Luchuk, S. and Lukens, P. Lukhanin, G. Magill, S. Maan, K. Mann, W. A. and Marshak, M. L. Martens, M. Martincik, J. Mason, P. and Matera, K. Mathis, M. Matveev, V. Mayer, N. McCluskey, E. Mehdiyev, R. Merritt, H. Messier, M. D. Meyer, H. and Miao, T. Michael, D. Mikheyev, S. P. Miller, W. H. and Mishra, S. R. Mohanta, R. Moren, A. Mualem, L. Muether, M. Mufson, S. Musser, J. Newman, H. B. Nelson, J. K. and Niner, E. Norman, A. Nowak, J. Oksuzian, Y. Olshevskiy, A. Oliver, J. Olson, T. Paley, J. Pandey, P. Para, A. Patterson, R. B. Pawloski, G. Pearson, N. Perevalov, D. Pershey, D. Peterson, E. Petti, R. Phan-Budd, S. and Piccoli, L. Pla-Dalmau, A. Plunkett, R. K. Poling, R. and Potukuchi, B. Psihas, F. Pushka, D. Qiu, X. Raddatz, N. and Radovic, A. Rameika, R. A. Ray, R. Rebel, B. and Rechenmacher, R. Reed, B. Reilly, R. Rocco, D. Rodkin, D. Ruddick, K. Rusack, R. Ryabov, V. Sachdev, K. and Sahijpal, S. Sahoo, H. Samoylov, O. Sanchez, M. C. and Saoulidou, N. Schlabach, P. Schneps, J. Schroeter, R. and Sepulveda-Quiroz, J. Shanahan, P. Sherwood, B. Sheshukov, A. and Singh, J. Singh, V. Smith, A. Smith, D. Smolik, J. and Solomey, N. Sotnikov, A. Sousa, A. Soustruznik, K. and Stenkin, Y. Strait, M. Suter, L. Talaga, R. L. Tamsett, M. C. Tariq, S. Tas, P. Tesarek, R. J. Thayyullathil, R. B. Thomsen, K. Tian, X. Tognini, S. C. Toner, R. and Trevor, J. Tzanakos, G. Urheim, J. Vahle, P. Valerio, L. and Vinton, L. Vrba, T. Waldron, A. V. Wang, B. Wang, Z. and Weber, A. Wehmann, A. Whittington, D. Wilcer, N. and Wildberger, R. Wildman, D. Williams, K. Wojcicki, S. G. and Wood, K. Xiao, M. Xin, T. Yadav, N. Yang, S. and Zadorozhnyy, S. Zalesak, J. Zamorano, B. Zhao, A. and Zirnstein, J. Zwaska, R.

Abstract

We report results from the first search for nu(mu) -> nu(e) transitions by the NOvA experiment. In an exposure equivalent to 2.74 x 10(20) protons on target in the upgraded NuMI beam at Fermilab, we observe 6 events in the Far Detector, compared to a background expectation of 0.99 +/- 0.11 (syst) events based on the Near Detector measurement. A secondary analysis observes 11 events with a background of 1.07 +/- 0.14 (syst). The 3.3 sigma excess of events observed in the primary analysis disfavors 0.1 pi < delta(CP) < 0.5 pi in the inverted mass hierarchy at the 90% C.L.

Published
2016

23. First measurement of muon-neutrino disappearance in NOvA

Author

Adamson, P. Ader, C. Andrews, M. Anfimov, N. Anghel, I. and Arms, K. Arrieta-Diaz, E. Aurisano, A. Ayres, D. S. and Backhouse, C. Baird, M. Bambah, B. A. Bays, K. and Bernstein, R. Betancourt, M. Bhatnagar, V. Bhuyan, B. and Bian, J. Biery, K. Blackburn, T. Bocean, V. Bogert, D. and Bolshakova, A. Bowden, M. Bower, C. Broemmelsiek, D. and Bromberg, C. Brunetti, G. Bu, X. Butkevich, A. Capista, D. Catano-Mur, E. Chase, T. R. Childress, S. Choudhary, B. C. Chowdhury, B. Coan, T. E. Coelho, J. A. B. Colo, M. Cooper, J. Corwin, L. Cronin-Hennessy, D. Cunningham, A. Davies, G. S. Davies, J. P. Del Tutto, M. Derwent, P. F. Deepthi, K. N. Demuth, D. Desai, S. Deuerling, G. and Devan, A. Dey, J. Dharmapalan, R. Ding, P. Dixon, S. and Djurcic, Z. Dukes, E. C. Duyang, H. Ehrlich, R. Feldman, G. J. Felt, N. Fenyves, E. J. Flumerfelt, E. Foulkes, S. and Frank, M. J. Freeman, W. Gabrielyan, M. Gallagher, H. R. and Gebhard, M. Ghosh, T. Gilbert, W. Giri, A. and Goadhouse, S. Gomes, R. A. Goodenough, L. Goodman, M. C. and Grichine, V. Grossman, N. Group, R. Grudzinski, J. and Guarino, V. Guo, B. Habig, A. Handler, T. Hartnell, J. and Hatcher, R. Hatzikoutelis, A. Heller, K. Howcroft, C. and Huang, J. Huang, X. Hylen, J. Ishitsuka, M. Jediny, F. Jensen, C. Jensen, D. Johnson, C. Jostlein, H. and Kafka, G. K. Kamyshkov, Y. Kasahara, S. M. S. Kasetti, S. and Kephart, K. Koizumi, G. Kotelnikov, S. Kourbanis, I. and Krahn, Z. Kravtsov, V. Kreymer, A. Kulenberg, Ch. Kumar, A. Kutnink, T. Kwarciancy, R. Kwong, J. Lang, K. and Lee, A. Lee, W. M. Lee, K. Lein, S. Liu, J. and Lokajicek, M. Lozier, J. Lu, Q. Lucas, P. Luchuk, S. and Lukens, P. Lukhanin, G. Magill, S. Maan, K. Mann, W. A. and Marshak, M. L. Martens, M. Martincik, J. Mason, P. and Matera, K. Mathis, M. Matveev, V. Mayer, N. McCluskey, E. Mehdiyev, R. Merritt, H. Messier, M. D. Meyer, H. and Miao, T. Michael, D. Mikheyev, S. P. Miller, W. H. and Mishra, S. R. Mohanta, R. Moren, A. Mualem, L. Muether, M. Mufson, S. Musser, J. Ne and Adamson, P. Ader, C. Andrews, M. Anfimov, N. Anghel, I. and Arms, K. Arrieta-Diaz, E. Aurisano, A. Ayres, D. S. and Backhouse, C. Baird, M. Bambah, B. A. Bays, K. and Bernstein, R. Betancourt, M. Bhatnagar, V. Bhuyan, B. and Bian, J. Biery, K. Blackburn, T. Bocean, V. Bogert, D. and Bolshakova, A. Bowden, M. Bower, C. Broemmelsiek, D. and Bromberg, C. Brunetti, G. Bu, X. Butkevich, A. Capista, D. Catano-Mur, E. Chase, T. R. Childress, S. Choudhary, B. C. Chowdhury, B. Coan, T. E. Coelho, J. A. B. Colo, M. Cooper, J. Corwin, L. Cronin-Hennessy, D. Cunningham, A. Davies, G. S. Davies, J. P. Del Tutto, M. Derwent, P. F. Deepthi, K. N. Demuth, D. Desai, S. Deuerling, G. and Devan, A. Dey, J. Dharmapalan, R. Ding, P. Dixon, S. and Djurcic, Z. Dukes, E. C. Duyang, H. Ehrlich, R. Feldman, G. J. Felt, N. Fenyves, E. J. Flumerfelt, E. Foulkes, S. and Frank, M. J. Freeman, W. Gabrielyan, M. Gallagher, H. R. and Gebhard, M. Ghosh, T. Gilbert, W. Giri, A. and Goadhouse, S. Gomes, R. A. Goodenough, L. Goodman, M. C. and Grichine, V. Grossman, N. Group, R. Grudzinski, J. and Guarino, V. Guo, B. Habig, A. Handler, T. Hartnell, J. and Hatcher, R. Hatzikoutelis, A. Heller, K. Howcroft, C. and Huang, J. Huang, X. Hylen, J. Ishitsuka, M. Jediny, F. Jensen, C. Jensen, D. Johnson, C. Jostlein, H. and Kafka, G. K. Kamyshkov, Y. Kasahara, S. M. S. Kasetti, S. and Kephart, K. Koizumi, G. Kotelnikov, S. Kourbanis, I. and Krahn, Z. Kravtsov, V. Kreymer, A. Kulenberg, Ch. Kumar, A. Kutnink, T. Kwarciancy, R. Kwong, J. Lang, K. and Lee, A. Lee, W. M. Lee, K. Lein, S. Liu, J. and Lokajicek, M. Lozier, J. Lu, Q. Lucas, P. Luchuk, S. and Lukens, P. Lukhanin, G. Magill, S. Maan, K. Mann, W. A. and Marshak, M. L. Martens, M. Martincik, J. Mason, P. and Matera, K. Mathis, M. Matveev, V. Mayer, N. McCluskey, E. Mehdiyev, R. Merritt, H. Messier, M. D. Meyer, H. and Miao, T. Michael, D. Mikheyev, S. P. Miller, W. H. and Mishra, S. R. Mohanta, R. Moren, A. Mualem, L. Muether, M. Mufson, S. Musser, J. Ne

Abstract

This paper reports the first measurement using the NOvA detectors of nu(mu) disappearance in a nu(mu) beam. The analysis uses a 14 kton-equivalent exposure of 2.74 x 10(20) protons-on-target from the Fermilab NuMI beam. Assuming the normal neutrino mass hierarchy, we measure Delta m(32)(2) = (2.52(-0.18)(+0.20)) x 10(-3) eV(2) and sin(2) theta(23) in the range 0.38-0.65, both at the 68% confidence level, with two statistically degenerate best-fit points at sin(2) theta(23) = 0.43 and 0.60. Results for the inverted mass hierarchy are also presented.

Published
2016

24. First Measurement of Electron Neutrino Appearance in NOvA

Author

Adamson, P. Ader, C. Andrews, M. Anfimov, N. Anghel, I. and Arms, K. Arrieta-Diaz, E. Aurisano, A. Ayres, D. S. and Backhouse, C. Baird, M. Bambah, B. A. Bays, K. and Bernstein, R. Betancourt, M. Bhatnagar, V. Bhuyan, B. and Bian, J. Biery, K. Blackburn, T. Bocean, V. Bogert, D. and Bolshakova, A. Bowden, M. Bower, C. Broemmelsiek, D. and Bromberg, C. Brunetti, G. Bu, X. Butkevich, A. Capista, D. Catano-Mur, E. Chase, T. R. Childress, S. Choudhary, B. C. Chowdhury, B. Coan, T. E. Coelho, J. A. B. Colo, M. Cooper, J. Corwin, L. Cronin-Hennessy, D. Cunningham, A. Davies, G. S. Davies, J. P. Del Tutto, M. Derwent, P. F. Deepthi, K. N. Demuth, D. Desai, S. Deuerling, G. and Devan, A. Dey, J. Dharmapalan, R. Ding, P. Dixon, S. and Djurcic, Z. Dukes, E. C. Duyang, H. Ehrlich, R. Feldman, G. J. Felt, N. Fenyves, E. J. Flumerfelt, E. Foulkes, S. and Frank, M. J. Freeman, W. Gabrielyan, M. Gallagher, H. R. and Gebhard, M. Ghosh, T. Gilbert, W. Giri, A. and Goadhouse, S. Gomes, R. A. Goodenough, L. Goodman, M. C. and Grichine, V. Grossman, N. Group, R. Grudzinski, J. and Guarino, V. Guo, B. Habig, A. Handler, T. Hartnell, J. and Hatcher, R. Hatzikoutelis, A. Heller, K. Howcroft, C. and Huang, J. Huang, X. Hylen, J. Ishitsuka, M. Jediny, F. Jensen, C. Jensen, D. Johnson, C. Jostlein, H. and Kafka, G. K. Kamyshkov, Y. Kasahara, S. M. S. Kasetti, S. and Kephart, K. Koizumi, G. Kotelnikov, S. Kourbanis, I. and Krahn, Z. Kravtsov, V. Kreymer, A. Kulenberg, Ch. Kumar, A. Kutnink, T. Kwarciancy, R. Kwong, J. Lang, K. and Lee, A. Lee, W. M. Lee, K. Lein, S. Liu, J. and Lokajicek, M. Lozier, J. Lu, Q. Lucas, P. Luchuk, S. and Lukens, P. Lukhanin, G. Magill, S. Maan, K. Mann, W. A. and Marshak, M. L. Martens, M. Martincik, J. Mason, P. and Matera, K. Mathis, M. Matveev, V. Mayer, N. McCluskey, E. Mehdiyev, R. Merritt, H. Messier, M. D. Meyer, H. and Miao, T. Michael, D. Mikheyev, S. P. Miller, W. H. and Mishra, S. R. Mohanta, R. Moren, A. Mualem, L. Muether, M. Mufson, S. Musser, J. Ne and Adamson, P. Ader, C. Andrews, M. Anfimov, N. Anghel, I. and Arms, K. Arrieta-Diaz, E. Aurisano, A. Ayres, D. S. and Backhouse, C. Baird, M. Bambah, B. A. Bays, K. and Bernstein, R. Betancourt, M. Bhatnagar, V. Bhuyan, B. and Bian, J. Biery, K. Blackburn, T. Bocean, V. Bogert, D. and Bolshakova, A. Bowden, M. Bower, C. Broemmelsiek, D. and Bromberg, C. Brunetti, G. Bu, X. Butkevich, A. Capista, D. Catano-Mur, E. Chase, T. R. Childress, S. Choudhary, B. C. Chowdhury, B. Coan, T. E. Coelho, J. A. B. Colo, M. Cooper, J. Corwin, L. Cronin-Hennessy, D. Cunningham, A. Davies, G. S. Davies, J. P. Del Tutto, M. Derwent, P. F. Deepthi, K. N. Demuth, D. Desai, S. Deuerling, G. and Devan, A. Dey, J. Dharmapalan, R. Ding, P. Dixon, S. and Djurcic, Z. Dukes, E. C. Duyang, H. Ehrlich, R. Feldman, G. J. Felt, N. Fenyves, E. J. Flumerfelt, E. Foulkes, S. and Frank, M. J. Freeman, W. Gabrielyan, M. Gallagher, H. R. and Gebhard, M. Ghosh, T. Gilbert, W. Giri, A. and Goadhouse, S. Gomes, R. A. Goodenough, L. Goodman, M. C. and Grichine, V. Grossman, N. Group, R. Grudzinski, J. and Guarino, V. Guo, B. Habig, A. Handler, T. Hartnell, J. and Hatcher, R. Hatzikoutelis, A. Heller, K. Howcroft, C. and Huang, J. Huang, X. Hylen, J. Ishitsuka, M. Jediny, F. Jensen, C. Jensen, D. Johnson, C. Jostlein, H. and Kafka, G. K. Kamyshkov, Y. Kasahara, S. M. S. Kasetti, S. and Kephart, K. Koizumi, G. Kotelnikov, S. Kourbanis, I. and Krahn, Z. Kravtsov, V. Kreymer, A. Kulenberg, Ch. Kumar, A. Kutnink, T. Kwarciancy, R. Kwong, J. Lang, K. and Lee, A. Lee, W. M. Lee, K. Lein, S. Liu, J. and Lokajicek, M. Lozier, J. Lu, Q. Lucas, P. Luchuk, S. and Lukens, P. Lukhanin, G. Magill, S. Maan, K. Mann, W. A. and Marshak, M. L. Martens, M. Martincik, J. Mason, P. and Matera, K. Mathis, M. Matveev, V. Mayer, N. McCluskey, E. Mehdiyev, R. Merritt, H. Messier, M. D. Meyer, H. and Miao, T. Michael, D. Mikheyev, S. P. Miller, W. H. and Mishra, S. R. Mohanta, R. Moren, A. Mualem, L. Muether, M. Mufson, S. Musser, J. Ne

Abstract

We report results from the first search for nu(mu) -> nu(e) transitions by the NOvA experiment. In an exposure equivalent to 2.74 x 10(20) protons on target in the upgraded NuMI beam at Fermilab, we observe 6 events in the Far Detector, compared to a background expectation of 0.99 +/- 0.11 (syst) events based on the Near Detector measurement. A secondary analysis observes 11 events with a background of 1.07 +/- 0.14 (syst). The 3.3 sigma excess of events observed in the primary analysis disfavors 0.1 pi < delta(CP) < 0.5 pi in the inverted mass hierarchy at the 90% C.L.

Published
2016

25. Beam deceleration performance of the Fermilab Main Injector

Author

Jackson, G P, Brown, B C, Capista, D P, Chase, B E, Dey, J, Flora, R, and Gattuso, C

Subjects
Astrophysics::High Energy Astrophysical Phenomena, Physics::Accelerator Physics, High Energy Physics::Experiment, Physics::Atomic Physics, Nuclear Experiment, Accelerators and Storage Rings
Abstract

The Fermilab Main Injector was designed to accelerate protons and antiprotons from a momentum of 8.889 GeV/c to 150 GeV/c. In order to study antiproton deceleration, for the ultimate purpose of storing them in a Penning trap, the Main Injector was used to decelerate protons from the injection momentum down to the goal of 2.0 GeV/c. In this paper the operational experience of working with the Main Injector as a decelerator is presented. (1 refs).

Published
2001

26. DEMONSTRATION OF COMMUNICATION USING NEUTRINOS

Author

STANCIL, D. D., primary, ADAMSON, P., additional, ALANIA, M., additional, ALIAGA, L., additional, ANDREWS, M., additional, DEL CASTILLO, C. ARAUJO, additional, BAGBY, L., additional, BAZO ALBA, J. L., additional, BODEK, A., additional, BOEHNLEIN, D., additional, BRADFORD, R., additional, BROOKS, W. K., additional, BUDD, H., additional, BUTKEVICH, A., additional, CAICEDO, D. A. M., additional, CAPISTA, D. P., additional, CASTROMONTE, C. M., additional, CHAMORRO, A., additional, CHARLTON, E., additional, CHRISTY, M. E., additional, CHVOJKA, J., additional, CONROW, P. D., additional, DANKO, I., additional, DAY, M., additional, DEVAN, J., additional, DOWNEY, J. M., additional, DYTMAN, S. A., additional, EBERLY, B., additional, FEIN, J. R., additional, FELIX, J., additional, FIELDS, L., additional, FIORENTINI, G. A., additional, GAGO, A. M., additional, GALLAGHER, H., additional, GRAN, R., additional, GRANGE, J., additional, GRIFFIN, J., additional, GRIFFIN, T., additional, HAHN, E., additional, HARRIS, D. A., additional, HIGUERA, A., additional, HOBBS, J. A., additional, HOFFMAN, C. M., additional, HUGHES, B. L., additional, HURTADO, K., additional, JUDD, A., additional, KAFKA, T., additional, KEPHART, K., additional, KILMER, J., additional, KORDOSKY, M., additional, KULAGIN, S. A., additional, KUZNETSOV, V. A., additional, LANARI, M., additional, LE, T., additional, LEE, H., additional, LOIACONO, L., additional, MAGGI, G., additional, MAHER, E., additional, MANLY, S., additional, MANN, W. A., additional, MARSHALL, C. M., additional, MCFARLAND, K. S., additional, MISLIVEC, A., additional, MCGOWAN, A. M., additional, MORFÍN, J. G., additional, DA MOTTA, H., additional, MOUSSEAU, J., additional, NELSON, J. K., additional, NIEMIEC-GIELATA, J. A., additional, OCHOA, N., additional, OSMANOV, B., additional, OSTA, J., additional, PALOMINO, J. L., additional, PARADIS, J. S., additional, PAOLONE, V., additional, PARK, J., additional, PEÑA, C., additional, PERDUE, G., additional, PÉREZ LARA, C. E., additional, PETERMAN, A. M., additional, PLA-DALMAU, A., additional, POLLOCK, B., additional, PROKOSHIN, F., additional, RANSOME, R. D., additional, RAY, H., additional, REYHAN, M., additional, RUBINOV, P., additional, RUGGIERO, D., additional, SANDS, O. S., additional, SCHELLMAN, H., additional, SCHMITZ, D. W., additional, SCHULTE, E. C., additional, SIMON, C., additional, SOLANO SALINAS, C. J., additional, STEFANSKI, R., additional, STEVENS, R. G., additional, TAGG, N., additional, TAKHISTOV, V., additional, TICE, B. G., additional, TILDEN, R. N., additional, VELÁSQUEZ, J. P., additional, VERGALOSOVA, I., additional, VOIRIN, J., additional, WALDING, J., additional, WALKER, B. J., additional, WALTON, T., additional, WOLCOTT, J., additional, WYTOCK, T. P., additional, ZAVALA, G., additional, ZHANG, D., additional, ZHU, L. Y., additional, and ZIEMER, B. P., additional

Published
2012
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27. The upgraded data acquisition system for beam loss monitoring at the Fermilab Tevatron and Main Injector

Author

Baumbaugh, A, primary, Briegel, C, additional, Brown, B C, additional, Capista, D, additional, Drennan, C, additional, Fellenz, B, additional, Knickerbocker, K, additional, Lewis, J D, additional, Marchionni, A, additional, Needles, C, additional, Olson, M, additional, Pordes, S, additional, Shi, Z, additional, Still, D, additional, Thurman-Keup, R, additional, Utes, M, additional, and Wu, J, additional

Published
2011
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29. Operational aspects of the main injector large aperture quadrupole (WQB)

Author

Chou, W., primary, Bartelson, L., additional, Brown, B., additional, Capista, D., additional, Crisp, J., additional, DiMarco, J., additional, Fitzgerald, J., additional, Glass, H., additional, Harding, D., additional, Johnson, D., additional, Kashikhin, V., additional, Kourbanis, I., additional, Prieto, P., additional, Robotham, W., additional, Sager, T., additional, Tartaglia, M., additional, Valerio, L., additional, Webber, R., additional, Wendt, M., additional, Wolff, D., additional, and Yang, M., additional

Published
2007
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30. Fermilab Main Injector Beam Position Monitor Upgrade

Author

Banerjee, B., primary, Barker, W., additional, Bledsoe, S., additional, Boes, T., additional, Briegel, C., additional, Capista, D., additional, Deuerling, G., additional, Dysert, R., additional, Forster, R., additional, Foulkes, S., additional, Haynes, W., additional, Hendricks, B., additional, Kasza, T., additional, Kutschke, R., additional, Marchionni, A., additional, Olson, M., additional, Pavlicek, V., additional, Piccoli, L., additional, Prieto, P., additional, Rapisarda, S., additional, Saewert, A., additional, Van Bogaert, J., additional, Votava, M., additional, Webber, R., additional, Wendt, M., additional, Wilcer, N., additional, and Wolbers, S., additional

Published
2006
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34. A Gap Clearing Kicker for Main Injector

Author

Kourbanis, I., Phil Adamson, Biggs, J., Brown, B., Capista, D., Jensen, C. C., Krafczyk, G. E., Morris, D. K., Scott, D., Seiya, K., Ward, S. R., Wu, G., and Yang, M. -J

Subjects
Accelerator Physics (physics.acc-ph), FOS: Physical sciences, Physics - Accelerator Physics
Abstract

Fermilab Main Injector has been operating at high Beam Power levels since 2008 when multi-batch slip stacking became operational. In order to maintain and increase the beam power levels the localized beam loss due to beam left over in the injection kicker gap during slip stacking needs to be addressed. A set of gap clearing kickers that kick any beam left in the injection gap to the beam abort have been built. The kickers were installed in the summer of 2009 and became operational in November of 2010. The kicker performance and its effect on the beam losses will be described., Comment: 3 pp. Particle Accelerator, 24th Conference (PAC'11) 2011. 28 Mar - 1 Apr 2011. New York, USA

47. Field enhancement induced by surface defects in two-dimensional ReSe 2 field emitters.

Author

Giubileo F, Faella E, Capista D, Passacantando M, Durante O, Kumar A, Pelella A, Intonti K, Viscardi L, De Stefano S, Martucciello N, Craciun MF, Russo S, and Di Bartolomeo A

Abstract

The field emission properties of rhenium diselenide (ReSe 2 ) nanosheets on Si/SiO 2 substrates, obtained through mechanical exfoliation, have been investigated. The n-type conduction was confirmed by using nano-manipulated tungsten probes inside a scanning electrode microscope to directly contact the ReSe 2 flake in back-gated field effect transistor configuration, avoiding any lithographic process. By performing a finite element electrostatic simulation of the electric field, it is demonstrated that the use of a tungsten probe as anode, at a controlled distance from the ReSe 2 emitter surface, allows the collection of emitted electrons from a reduced area that furtherly decreases by reducing the tip-sample distance, i.e. allowing a local characterization of the field emission properties. Experimentally, it is shown that the turn-on voltage can be linearly reduced by reducing the cathode-anode separation distance. By comparing the measured current-voltage characteristics with the numerical simulations, it is also shown that the effective field enhancement on the emitter surface is larger than expected because of surface defects. Finally, it is confirmed that ReSe 2 nanosheets are suitable field emitters with high time stability and low current fluctuations.

Published
2024
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48. 3D Graphene Oxide-Polyethylenimine Scaffolds for Cardiac Tissue Engineering.

Author

Pilato S, Moffa S, Siani G, Diomede F, Trubiani O, Pizzicannella J, Capista D, Passacantando M, Samorì P, and Fontana A

Abstract

The development of novel three-dimensional (3D) nanomaterials combining high biocompatibility, precise mechanical characteristics, electrical conductivity, and controlled pore size to enable cell and nutrient permeation is highly sought after for cardiac tissue engineering applications including repair of damaged heart tissues following myocardial infarction and heart failure. Such unique characteristics can collectively be found in hybrid, highly porous tridimensional scaffolds based on chemically functionalized graphene oxide (GO). By exploiting the rich reactivity of the GO's basal epoxydic and edge carboxylate moieties when interacting, respectively, with NH 2 and NH 3 + groups of linear polyethylenimines (PEIs), 3D architectures with variable thickness and porosity can be manufactured, making use of the layer-by-layer technique through the subsequent dipping in GO and PEI aqueous solutions, thereby attaining enhanced compositional and structural control. The elasticity modulus of the hybrid material is found to depend on scaffold's thickness, with the lowest value of 13 GPa obtained in samples containing the highest number of alternating layers. Thanks to the amino-rich composition of the hybrid and the established biocompatibility of GO, the scaffolds do not exhibit cytotoxicity; they promote cardiac muscle HL-1 cell adhesion and growth without interfering with the cell morphology and increasing cardiac markers such as Connexin-43 and Nkx 2.5. Our novel strategy for scaffold preparation thus overcomes the drawbacks associated with the limited processability of pristine graphene and low GO conductivity, and it enables the production of biocompatible 3D GO scaffolds covalently functionalized with amino-based spacers, which is advantageous for cardiac tissue engineering applications. In particular, they displayed a significant increase in the number of gap junctions compared to HL-1 cultured on CTRL substrates, which render them key components for repairing damaged heart tissues as well as being used for 3D in vitro cardiac modeling investigations.

Published
2023
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49. Spatially Resolved Photo-Response of a Carbon Nanotube/Si Photodetector.

Author

Capista D, Lozzi L, Pelella A, Di Bartolomeo A, Giubileo F, and Passacantando M

Abstract

Photodetectors based on vertical multi-walled carbon nanotube (MWCNT) film-Si heterojunctions are realized by growing MWCNTs on n-type Si substrates with a top surface covered by Si 3 N 4 layers. Spatially resolved photocurrent measurements reveal that higher photo detection is achieved in regions with thinner MWCNT film, where nearly 100% external quantum efficiency is achieved. Hence, we propose a simple method based on the use of scotch tape with which to tune the thickness and density of as-grown MWCNT film and enhance device photo-response.

Published
2023
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50. Formation of a two-dimensional oxide via oxidation of a layered material.

Author

Camilli L, Capista D, Tomellini M, Sun J, Zeller P, Amati M, Gregoratti L, Lozzi L, and Passacantando M

Abstract

We investigate the oxidation mechanism of the layered model system GeAs. In situ X-ray photoelectron spectroscopy experiments performed by irradiating an individual flake with synchrotron radiation in the presence of oxygen show that while As leaves the GeAs surface upon oxidation, a Ge-rich ultrathin oxide film is being formed in the topmost layer of the flake. We develop a theoretical model that supports the layer-by-layer oxidation of GeAs, with a logarithmic kinetics. Finally, assuming that the activation energy for the oxidation process changes linearly with coverage, we estimate that the activation energy for As oxidation is almost twice that for Ge at room temperature.

Published
2022
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