Limits on thermally-distributed halo dark-matter axions from ADMX

Gianpaolo Carosi; Steven Asztalos; Richard Bradley; Michael Hotz; Jungseek Hwang; Darin Kinion; Leslie Rosenberg; Gray Rybka; Pierre Sikivie; David Tanner; Karl van Bibber

Limits on thermally-distributed halo dark-matter axions from ADMX

ORAL

Abstract

The Axion Dark Matter eXperiment (ADMX) at LLNL searches for dark-matter axions through their Primakoff conversion to microwave photons, resonantly enhanced in a high-Q cavity permeated by a strong magnetic field. The most general assumption is that halo axions are thermalized with the local virial velocity of the Milky Way, about 270 km/sec, which implies a spectral line-broadening of one part in a million. ADMX has set limits on halo axions for realistic models over an octave of mass range in the few microelectronvolt range. The experiment is the most sensitive spectral receiver in the world, able to detect signals in the GHz range well below a yoctowatt. This talk will outline the experimental technique, data analysis and results for the medium-resolution search.

Oct. 26, 2008, 5:42 AM – Oct. 26, 2008, 5:54 AM

Authors

Gianpaolo Carosi
- LLNL
- Lawrence Livermore National Laboratory
Steven Asztalos
- Lawrence Livermore National Laboratory, 7000 East Avenue, Livermore, CA 94550, USA
Richard Bradley
- Natl. Radio Astronomical Observatory
- National Radio Astronomical Observatory
Michael Hotz
- Univ. of Washington
- University of Washington
Jungseek Hwang
- Univ. of Florida
- University of Florida
Darin Kinion
- LLNL
- Lawrence Livermore National Laboratory
Leslie Rosenberg
- Univ. of Washington
- University of Washington
Gray Rybka
- Univ. of Washington
- University of Washington
Pierre Sikivie
- Univ. of Florida
- University of Florida
David Tanner
- Univ. of Florida
- University of Florida
Karl van Bibber
- LLNL
- Lawrence Livermore National Laboratory