A Strained Silicon Cold Electron Bolometer using Schottky Contacts
Abstract
We describe optical characterisation of a Strained Silicon Cold Electron Bolometer (CEB), operating on a stage, designed for absorption of millimetre-wave radiation. The silicon Cold Electron Bolometer utilises Schottky contacts between a superconductor and an n++ doped silicon island to detect changes in the temperature of the charge carriers in the silicon, due to variations in absorbed radiation. By using strained silicon as the absorber, we decrease the electron-phonon coupling in the device and increase the responsivity to incoming power. The strained silicon absorber is coupled to a planar aluminium twin-slot antenna designed to couple to and that serves as the superconducting contacts. From the measured optical responsivity and spectral response, we calculate a maximum optical efficiency of for radiation coupled into the device by the planar antenna and an overall noise equivalent power (NEP), referred to absorbed optical power, of when the detector is observing a source through a throughput limiting aperture. Even though this optical system is not optimised we measure a system noise equivalent temperature difference (NETD) of . We measure the noise of the device using a cross-correlation of time stream data measured simultaneously with two junction field-effect transistor (JFET) amplifiers, with a base correlated noise level of and find that the total noise is consistent with a combination of photon noise, current shot noise and electron-phonon thermal noise.
Cite
@article{arxiv.1407.2113,
title = {A Strained Silicon Cold Electron Bolometer using Schottky Contacts},
author = {T. L. R. Brien and P. A. R. Ade and P. S. Barry and C. Dunscombe and D. R. Leadley and D. V. Morozov and M. Myronov and E. H. C. Parker and M. Prunnila and M. J. Prest and R. V. Sudiwala and T. E. Whall and P. D. Mauskopf},
journal= {arXiv preprint arXiv:1407.2113},
year = {2014}
}
Comments
Published in Applied Physics Letters, 105, pp. 043509