Author:
Akhmatov Z A,Berezin S S,Gavrilyuk Yu M,Gangapshev A M,Derbin A V,Drachnev I S,Kazalov V V,Khokonov A Kh,Kobychev V V,Kuzminov V V,Muratova V N,Panasenko S I,Ratkevich S S,Tekueva D A,Unzhakov E V,Zavrazhnov A Yu
Abstract
Abstract
Resonance excitation of the 83Kr first nuclear level (E = 9.4 keV) by solar axions formed via the Primakoff mechanism and via an M1-transition in the 83Kr nucleus in the Sun is searched. The γ-and x-ray photons and the conversion and Auger electrons arising from the excited-level relaxation are detected with a proportional counter in the underground low-background facility of Baksan Neutrino Observatory. The following experimental constraint is obtained for the product of the axion-photon coupling constant and the axion mass: |g
Aγ
m
A
| ≼ 6.16 × 10−17. In the framework of the hadronic-axion model, this corresponds to a new axion-mass constraint of mA
≼ 12.6 eV at 95% coincidence level (C.L.). In case of pure hadronic interaction the upper limit for axion-nucleon coupling is
|
g
AN
3
−
g
AN
0
|
≼ 8.3 × 10−7 at 95% C.L., which corresponds to upper limit for hadrionic axion mass: mA ≼ 64 eV at 95% C.L. with the generally accepted values S = 0.5 and z = 0.56.
Subject
General Physics and Astronomy