论文信息 - Acoustic detection of particles, the RAP experiment: present status and results

Acoustic detection of particles, the RAP experiment: present status and results

Cosmic ray events with rate and energy much higher than expected were detected by the ultracryogenic gravitational antenna Nautilus located at the Laboratori Nazionali di Frascati, when it was operating in superconducting state. Mechanisms related to the superconductivity state of the material could be involved in such a way to enhance the conversion efficiency of the particle energy into vibrational energy of the detector. The RAP experiment has the aim to study the mechanical response of a small metallic resonant bar to short pulses of high energy electron beam, investigating the response of the bar both in normal and in superconducting state. The results obtained for an Al5056 bar down to a temperature of 4 K are reported and the preliminary results for a niobium bar at temperature below and above the superconducting-normal transition are also discussed.

[1] E. Coccia,et al. RAP: thermoacoustic detection at the DAΦNE beam test facility , 2004 .

[2] A. Marini. The Grüneisen Parameter for Aluminum in the Temperature Range 0.3–1.1 K , 2003 .

[3] Y. Minenkov,et al. Effect of cosmic rays on the resonant gravitational wave detector Nautilus at temperature T=1.5 K , 2002, gr-qc/0206079.

[4] E. Coccia,et al. Measurement of mechanical vibrations excited in aluminium resonators by 0.6 GeV electrons , 2000, physics/0001023.

[5] Carelli,et al. Cosmic rays observed by the resonant gravitational wave detector NAUTILUS , 1999, Physical review letters.

[6] B. Lautrup,et al. Sonic search for monopoles, gravitational waves and newtorites , 1984 .

[7] N. Cabibbo,et al. Acoustic detection of superheavy monopoles in gravitational antennas , 1983 .

[8] G. Strini,et al. Excitation of resonant oscillations in a solid bar by 30‐MeV protons , 1980 .

[9] On the electrical equivalent circuits of gravitational-wave antennas , 1978 .

[10] B. L. Beron,et al. Generation of mechanical vibrations by penetrating particles , 1969 .