High Spectral Resolution Measurement of the Sunyaev-Zel'dovich Effect Null with Z-Spec

Abstract

The Sunyaev-Zel'dovich (SZ) effect spectrum crosses through a null where dTCMB = 0 near nu0 = 217 GHz. In a cluster of galaxies, nu0 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 dTCMB over the Z-Spec band. The SZ null position is measured to be nu0 = 225.8 2.5 (stat.) 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 nu0 is due only to relativistic corrections to the SZ spectrum, we place the limit Te = 17.1 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 y0, Te, vpec space. For vpec = 0 km/s, we measure the best fitting SZ model to be y0 = 4.6 (+0.6, -0.9) x 10-4, Te,0 = 15.2 (+12,-7.4) keV. When vpec is allowed to vary, a most probable value of vpec = +450 810 km/s is found.