%0 Generic
%A Buijtendorp, Bruno
%D 2024
%T Data underlying the publication: Vibrational modes as the origin of dielectric loss at 0.27–100 THz in a-SiC:H
%U 
%R 10.4121/523d71a0-34ce-4969-a899-00668b9f3265.v1
%K mm-submm
%K loss
%K dielectric
%K silicon carbide
%K amorphous
%K hydrogenated
%K vibrational modes
%K superconducting
%X <p>Low-loss deposited dielectrics are beneficial for the advancement of superconducting integrated circuits for astronomy. In the microwave band (∼1–10 GHz) the cryogenic and low-power dielectric loss at cryogenic temperatures and low electric field strengths is dominated by two-level systems. However, the origin of the loss in the millimeter-submillimeter band (∼0.1–1 THz) is not understood. We measured the loss of hydrogenated amorphous SiC (a-SiC:H) films in the 0.27–100 THz range using superconducting microstrip resonators and Fourier-transform spectroscopy. The agreement between the loss data and a Maxwell-Helmholtz-Drude dispersion model suggests that vibrational modes above 10 THz dominate the loss in the a-SiC:H above 200 GHz.</p>
%I 4TU.ResearchData