test
Feasibility of photon detection from cosmic background neutrino decayP-46Search for Cosmic Background Neutrino DecayYuji Takeuchi (Univ. of Tsukuba)Neutrino Decay CollaborationS. H. Kim, Y. Takeuchi, K. Nagata, K. Kasahara, T. Okudaira (Univ. of Tsukuba) , H. Ikeda, S. Matsuura, T. Wada (JAXA/ISAS) , H. Ishino, A. Kibayashi (Okayama Univ.) , S. Mima (RIKEN), T. Yoshida, S. Kobayashi, K. Origasa (Fukui Univ.) , Y. Kato (Kinki Univ.), M. Hazumi, Y. Arai (KEK), E. Ramberg, J. H. Yoo, M. Kozlovsky, P. Rubinov, D. Sergatskov (FNAL), S. B. Kim (Seoul National Univ.)CMB2013, Jun. 10-14, 2013 @ Okinawa Institute of Science and Technology Graduate University (OIST)
SML-R model1026 enhancement from SM
Sharp edge with 1.9K smearing and energy resolution of a detector(0%-5%)Red shift effectCIB (fit from COBE data)Rocket experimentHf-STJ development
B=10 GaussB=0 Gauss
CB decay
Zodiacal LightZodiacal EmissionGalactic dust emissionWavelength[m]Integrated flux from galaxy countsgalaxy evolution model
CIB measurements( AKARI, COBE) Astrophys. J. 737 (2011) 26.7Nb/Al-STJ pixelWe suppose 50 by 8 Nb/Al-STJ pixel array to achieve 2% energy resolution, and each STJ pixel require single photon detection for 25 meV photon
Diffractive gratingDepressurized LHe4 (1.6K)Diffractive gratingDAQSorption pumpMulti-pixel Nb/Al-STJLHe4Depressurized LHe3(