Zobrazeno 1 - 10
of 50
pro vyhledávání: '"N. S. Oblath"'
Autor:
N Buzinsky, R J Taylor, W Byron, W DeGraw, B Dodson, M Fertl, A García, A P Goodson, B Graner, H Harrington, L Hayen, L Malavasi, D McClain, D Melconian, P Müller, E Novitski, N S Oblath, R G H Robertson, G Rybka, G Savard, E Smith, D D Stancil, D W Storm, H E Swanson, J R Tedeschi, B A VanDevender, F E Wietfeldt, A R Young
Publikováno v:
New Journal of Physics, Vol 26, Iss 8, p 083021 (2024)
Cyclotron radiation emission spectroscopy (CRES) is a modern technique for high-precision energy spectroscopy, in which the energy of a charged particle in a magnetic field is measured via the frequency of the emitted cyclotron radiation. The He6-CRE
Externí odkaz:
https://doaj.org/article/3094c72b27fc48de9077bfd165c9793c
Autor:
A Ashtari Esfahani, S Böser, N Buzinsky, M C Carmona-Benitez, R Cervantes, C Claessens, L de Viveiros, M Fertl, J A Formaggio, J K Gaison, L Gladstone, M Grando, M Guigue, J Hartse, K M Heeger, X Huyan, A M Jones, K Kazkaz, M Li, A Lindman, A Marsteller, C Matthé, R Mohiuddin, B Monreal, E C Morrison, R Mueller, J A Nikkel, E Novitski, N S Oblath, J I Peña, W Pettus, R Reimann, R G H Robertson, L Saldaña, M Schram, P L Slocum, J Stachurska, Y-H Sun, P T Surukuchi, A B Telles, F Thomas, M Thomas, L A Thorne, T Thümmler, L Tvrznikova, W Van De Pontseele, B A VanDevender, T E Weiss, T Wendler, E Zayas, A Ziegler
Publikováno v:
Machine Learning: Science and Technology, Vol 5, Iss 2, p 025026 (2024)
The objective of the cyclotron radiation emission spectroscopy (CRES) technology is to build precise particle energy spectra. This is achieved by identifying the start frequencies of charged particle trajectories which, when exposed to an external ma
Externí odkaz:
https://doaj.org/article/0c18907a11204332a75d95e50634ce09
Autor:
A Ashtari Esfahani, Z Bogorad, S Böser, N Buzinsky, C Claessens, L de Viveiros, M Fertl, J A Formaggio, L Gladstone, M Grando, M Guigue, J Hartse, K M Heeger, X Huyan, J Johnston, A M Jones, K Kazkaz, B H LaRoque, M Li, A Lindman, C Matthé, R Mohiuddin, B Monreal, J A Nikkel, E Novitski, N S Oblath, J I Peña, W Pettus, R Reimann, R G H Robertson, G Rybka, L Saldaña, M Schram, P L Slocum, J Stachurska, Y-H Sun, P T Surukuchi, A B Telles, F Thomas, M Thomas, T Thümmler, L Tvrznikova, W Van De Pontseele, B A VanDevender, T E Weiss, T Wendler, E Zayas, A Ziegler
Publikováno v:
New Journal of Physics, Vol 24, Iss 5, p 053013 (2022)
Cyclotron radiation emission spectroscopy (CRES) is a modern approach for determining charged particle energies via high-precision frequency measurements of the emitted cyclotron radiation. For CRES experiments with gas within the fiducial volume, si
Externí odkaz:
https://doaj.org/article/5377238c6ee7434eb8106b850d1897bc
Autor:
R. Cervantes, G. Carosi, S. Kimes, C. Hanretty, B. H. LaRoque, G. Leum, P. Mohapatra, N. S. Oblath, R. Ottens, Y. Park, G. Rybka, J. Sinnis, J. Yang
Publikováno v:
Physical Review D. 106
Autor:
R. Cervantes, G. Carosi, C. Hanretty, S. Kimes, B. H. LaRoque, G. Leum, P. Mohapatra, N. S. Oblath, R. Ottens, Y. Park, G. Rybka, J. Sinnis, J. Yang
Publikováno v:
Physical Review Letters. 129
Autor:
A Ashtari Esfahani, S Böser, N Buzinsky, R Cervantes, C Claessens, L de Viveiros, M Fertl, J A Formaggio, L Gladstone, M Guigue, K M Heeger, J Johnston, A M Jones, K Kazkaz, B H LaRoque, A Lindman, E Machado, B Monreal, E C Morrison, J A Nikkel, E Novitski, N S Oblath, W Pettus, R G H Robertson, G Rybka, L Saldaña, V Sibille, M Schram, P L Slocum, Y-H Sun, T Thümmler, B A VanDevender, T E Weiss, T Wendler, E Zayas
Publikováno v:
New Journal of Physics, Vol 22, Iss 3, p 033004 (2020)
The cyclotron radiation emission spectroscopy (CRES) technique pioneered by Project 8 measures electromagnetic radiation from individual electrons gyrating in a background magnetic field to construct a highly precise energy spectrum for beta decay st
Externí odkaz:
https://doaj.org/article/54e59a8e97ff4748a02232cfd578aca3
Autor:
A Ashtari Esfahani, S Böser, N Buzinsky, R Cervantes, C Claessens, L de Viveiros, M Fertl, J A Formaggio, L Gladstone, M Guigue, K M Heeger, J Johnston, A M Jones, K Kazkaz, B H LaRoque, A Lindman, E Machado, B Monreal, E C Morrison, J A Nikkel, E Novitski, N S Oblath, W Pettus, R G H Robertson, G Rybka, L Saldaña, V Sibille, M Schram, P L Slocum, Y-H Sun, J R Tedeschi, T Thümmler, B A VanDevender, M Wachtendonk, M Walter, T E Weiss, T Wendler, E Zayas
Publikováno v:
New Journal of Physics, Vol 21, Iss 11, p 113051 (2019)
The Locust simulation package is a new C++ software tool developed to simulate the measurement of time-varying electromagnetic fields using RF detection techniques. Modularity and flexibility allow for arbitrary input signals, while concurrently supp
Externí odkaz:
https://doaj.org/article/4afa1aa1f7784ccb9b2086bfa32e77f2
Autor:
Malachi Schram, Christopher A. Barrett, Tamas Varga, Anil K. Battu, Zachary C. Kennedy, J. F. Strube, Kevin Fox, Robert Rallo, Mathew Thomas, N. S. Oblath
Publikováno v:
MRS Advances. 5:1547-1555
We present the current status of a scalable computing framework to address the need of the multidisciplinary effort to study chemical dynamics. Specifically, we are enabling scientists to process and store experimental data, run large-scale computati
Autor:
R. Khatiwada, D. Bowring, A. S. Chou, A. Sonnenschein, W. Wester, D. V. Mitchell, T. Braine, C. Bartram, R. Cervantes, N. Crisosto, N. Du, L. J. Rosenberg, G. Rybka, J. Yang, D. Will, S. Kimes, G. Carosi, N. Woollett, S. Durham, L. D. Duffy, R. Bradley, C. Boutan, M. Jones, B. H. LaRoque, N. S. Oblath, M. S. Taubman, J. Tedeschi, John Clarke, A. Dove, A. Hashim, I. Siddiqi, N. Stevenson, A. Eddins, S. R. O’Kelley, S. Nawaz, A. Agrawal, A. V. Dixit, J. R. Gleason, S. Jois, P. Sikivie, N. S. Sullivan, D. B. Tanner, J. A. Solomon, E. Lentz, E. J. Daw, M. G. Perry, J. H. Buckley, P. M. Harrington, E. A. Henriksen, K. W. Murch, G. C. Hilton
Publikováno v:
The Review of scientific instruments. 92(12)
Axion Dark Matter eXperiment (ADMX) ultra low noise haloscope technology has enabled the successful completion of two science runs (1A and 1B) that looked for dark matter axions in the $2.66$ to $3.1$ $\mu$eV mass range with Dine-Fischler-Srednicki-Z
Autor:
C. Bartram, T. Braine, R. Cervantes, N. Crisosto, N. Du, G. Leum, P. Mohapatra, T. Nitta, L. J. Rosenberg, G. Rybka, J. Yang, John Clarke, I. Siddiqi, A. Agrawal, A. V. Dixit, M. H. Awida, A. S. Chou, M. Hollister, S. Knirck, A. Sonnenschein, W. Wester, J. R. Gleason, A. T. Hipp, S. Jois, P. Sikivie, N. S. Sullivan, D. B. Tanner, E. Lentz, R. Khatiwada, G. Carosi, C. Cisneros, N. Robertson, N. Woollett, L. D. Duffy, C. Boutan, M. Jones, B. H. LaRoque, N. S. Oblath, M. S. Taubman, E. J. Daw, M. G. Perry, J. H. Buckley, C. Gaikwad, J. Hoffman, K. Murch, M. Goryachev, B. T. McAllister, A. Quiskamp, C. Thomson, M. E. Tobar, V. Bolkhovsky, G. Calusine, W. Oliver, K. Serniak
We describe the first implementation of a Josephson Traveling Wave Parametric Amplifier (JTWPA) in an axion dark matter search. The operation of the JTWPA for a period of about two weeks achieved sensitivity to axion-like particle dark matter with ax
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::cf1603b525907b3210a0bf0581ea0925
http://arxiv.org/abs/2110.10262
http://arxiv.org/abs/2110.10262