Title: Niobium HotElectron Bolometers
1Niobium Hot-Electron Bolometers
Matthew Reese Daniel Santavicca Dr. Luigi
Frunzio Prof. Daniel Prober
2Hot-Electron Bolometers
Direct detection P ? dT ? dR Mixing P
V2/R V(t) Acos(wLOt) Bcos(wRFt) wLO-wRF
IF
3Diffusion Cooling vs. Phonon Cooling
tthermal-1 te-ph-1 tdiffusion-1 f-3dB
1/(2ptthermal)
Long Microbridge ? Phonon Cooling Short
Microbridge ? Diffusion Cooling
te-ph ? 1ns for Nb at 5K ? f-3dB ? 160 MHz
4Fabrication of Niobium HEBs
5Coupling THz Radiation to a Detector
Quasi-optical
Waveguide
Phonon-cooled Nb HEB with double-dipole antenna
Diffusion-cooled Nb HEB (left) and sketch showing
cross section of feedhorn, waveguide, and mixer
mount (right)
6Microwave Measurement Setup
7Niobium HEB 10 x 170 x 360nm
8Comparison of Direct Detectors - 4.2K
Frequency Detector Readout Range NEP
(W/Hz1/2) Bandwidth Multi-mode devices Si
bolometer all 10-13 100 Hz InSb HEB lt0.6
THz 10-12 0.5 MHz stressed GaGe gt1.5 THz 2 x
10-11 1 MHz photoconductor Single-mode
devices Nb HEB set by 4 x 10-14 150
MHz antenna
9Work In Progress
- HEB Mixers
- Fabrication and microwave characterization of
diffusion-cooled Nb HEBs at Yale - THz characterization in waveguide system at
University of Arizona - Fabrication and characterization of 8x8 HEB array
for deployment on the Heinrich Hertz
Submillimeter Telescope on Mt. Graham, Arizona
- HEB Direct Detectors
- Fabrication and initial characterization of
phonon-cooled Nb HEBs at Yale - Device and antenna characterization at THz
frequencies at Caltech/JPL - Refine antenna design