M. Zemcov, J. Aguirre, J. Bock, M. Bradford, N. Czakon, J. Glenn, S. R. Golwala, R. Lupu, P. Maloney, P. Mauskopf, E. Million, E. J. Murphy, B. Naylor, H. Nguyen, M. Rosenman, J. Sayers, K. S. Scott, J. Zmuidzinas
The Sunyaev-Zel'dovich (SZ) effect spectrum crosses through a null where
dT_CMB = 0 near nu_0 = 217 GHz. In a cluster of galaxies, nu_0 can be shifted
from the canonical thermal SZ effect value by corrections to the SZ effect
scattering due to the properties of the inter-cluster medium. We have measured
the SZ effect in the hot galaxy cluster RX J1347.5-1145 with Z-Spec, an R ~ 300
grating spectrometer sensitive between 185 and 305 GHz. These data comprise a
high spectral resolution measurement around the null of the SZ effect and
clearly exhibit the transition from negative to positive dT_CMB over the Z-Spec
band. The SZ null position is measured to be nu_0 = 225.8 \pm 2.5 (stat.) \pm
1.2 (sys.) GHz, which differs from the canonical null frequency by 3.0 sigma
and is evidence for modifications to the canonical thermal SZ effect shape.
Assuming the measured shift in nu_0 is due only to relativistic corrections to
the SZ spectrum, we place the limit T_e = 17.1 \pm 5.3 keV from the zero-point
measurement alone. By simulating the response of the instrument to the sky, we
are able to generate likelihood functions in {y_0, T_e, v_pec} space. For v_pec
= 0 km/s, we measure the best fitting SZ model to be y_0 = 4.6 (+0.6, -0.9) x
10^-4, T_e,0 = 15.2 (+12,-7.4) keV. When v_pec is allowed to vary, a most
probable value of v_pec = +450 \pm 810 km/s is found.
View original:
http://arxiv.org/abs/1202.0029
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