| Titel | HUMBA: the Hundred Millikelvin Bolometer Array for 2 mm Continuum Observations |
| Autor | Andrea Raccanelli |
| Publikationsform | Dissertation |
| Abstract | High resolution maps of the Sunyaev-Zel'dovich effect in clusters of galaxies
offer a powerful tool for studying physics in clusters and cosmology. The Hundred
Millikelvin Bolometer Array (HUMBA) for 2 mm continuum observation is a unique
instrument devoted to the observations of the thermal Sunyaev-Zeldovich effect.
I report on my work on this instrument and on the results of test observations
in November 2001 at the IRAM 30 m telescope. The performance of HUMBA was seriously limited by an excess of low-frequency noise in the detectors. The source of this noise was investigated and found to originate in the continuously filled 1 K pot of the dilution unit. The noise could be eliminated by converting the helium coming from the main bath to its superfluid state before injecting it into the 1 K pot. The thermalization of the helium to the pot temperature is provided by a heat exchanger internal to the pot. The improvement to the dilution unit has been covered by a patent application. After being tested with new detectors, HUMBA was installed at the IRAM 30 m telescope. During two days of tests on the sky, we observed the three bright, compact clusters of galaxies RXC J2228.6+2036, RXC J1023.6+0411, and RXC J1401.0+0252 and detected a SZ signal from two of them. Other objects, including the comet C/2000 WM1, Pluto, and stars were also detected. Our measurements on the clusters are compared to existing X-ray data from the ROSAT satellite. The Comptonization parameters derived from the 2 mm data are found to be in good agreement with those expected from X-ray data using an isothermal beta model. |
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