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A. García
First name(s): A.
Last name(s): García
Institute: University of Washington, Center for Experimental Nuclear Physics and Astrophysics
This author is also known under the following synonyms:
(All publications of this author under all names are included in the publication list below)

Publications of A. García sorted by journal and type

Authors associated with the Cyclotron Institute are underlined, and those associated with Center of Excellence in Nuclear Training And University-based Research (CENTAUR) have a * next to their name.


Hyperfine Interactions


Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

Characterization of thin-foil ultracold neutron detectors, A. L. Sallaska, S. A. Hoedl, A. García, D. Melconian*, A. R. Young, P. Geltenbort, S. K. L. Sjue and A. T. Holley, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 603, 421 - 428 (2009) pub id: 26 [DOI] [URL]

Phys. Rev. C


Phys. Rev. Lett.


Review of Scientific Instruments


Nuclear Physics News


Phys. Rev. C


Phys. Rev. Lett.

First Observation of Cyclotron Radiation from MeV-Scale $e^{\pm}$ following Nuclear $\beta$ Decay, W. Byron, H. Harrington, R. J. Taylor, W. DeGraw, N. Buzinsky, B. Dodson, M. Fertl, A. García, G. Garvey, B. Graner, M. Guigue, L. Hayen, X. Huyan, K. S. Khaw, K. Knutsen, D. McClain*, D. Melconian*, P. Müller, E. Novitski, N. S. Oblath, R. G. H. Robertson, G. Rybka, G. Savard, E. Smith, D. D. Stancil, M. Sternberg, D. W. Storm, H. E. Swanson, J. R. Tedeschi, B. A. VanDevender, F. E. Wietfeldt, A. R. Young, characteristic of nuclear β decays. The cyclotron frequency of the radiating β particles in a magnetic field is used to determine the β energy precisely. Our work establishes the foundation to apply the cyclotron radiation emission spectroscopy (CRES) tec Zhu, X.} abstract = {We present an apparatus for detection of cyclotron radiation yielding a frequency-based β± kinetic energy determination in the 5 keV to 2.1 MeV range, β+’s from 19Ne decays to demonstrate the broadband response of our detection system and opening its reach to searches for new physics beyond the TeV scale via precision β-decay measurements. assess potential systematic uncertainties for β spectroscopy over the full (MeV) energy range. To our knowledge, this is the first direct observation of cyclotron radiation from individual highly relativistic β’s in a waveguide. This work establishes the application of CRES to a variety of nuclei, Phys. Rev. Lett. 131, 082502 (2023) pub id: 1333 [DOI] [URL]