Tuning of Two-Stage HEMT Cryogenic Amplifier to Reduce Electron Temperature in a Nearby Quantum Dot

Trevor Knapp; J. P. Dodson; Brandur Thorgrimsson; D. E. Savage; Max Lagally; Susan Coppersmith; M. A. Eriksson

Tuning of Two-Stage HEMT Cryogenic Amplifier to Reduce Electron Temperature in a Nearby Quantum Dot

ORAL

Abstract

Cryogenic amplification using the two-stage HEMT amplifier [L. A. Tracy, et al., APL 108, 063101 (2016)] is one of several competing techniques for boosting the bandwidth of low-current high-impedance measurements in a dilution refrigerator. While it has previously been shown that the heat dissipation of the amplifier can be tuned below the typical cooling power of a mixing chamber in a dilution refrigerator, we show that the amplifier may still create a local heating effect that could substantially raise the electron temperature in a nearby sample (e.g., a quantum dot qubit). Fortunately the amplifier can be tuned to mitigate heat dissipation while preserving bandwidth. We present evidence that operation of the amplifier can be consistent with quantum dot electron temperatures of ~100 mK and single shot measurement.

March 7, 2018, 6:42 PM – March 7, 2018, 6:54 PM

Presenters

Trevor Knapp

Univ of Wisconsin, Madison, Physics, University of Wisconsin: Madison

Authors

Trevor Knapp

Univ of Wisconsin, Madison, Physics, University of Wisconsin: Madison
J. P. Dodson

Physics, University of Wisconsin-Madison, Univ of Wisconsin, Madison, Physics, University of Wisconsin: Madison
Brandur Thorgrimsson

Univ of Wisconsin, Madison, Physics, University of Wisconsin: Madison
D. E. Savage

University of Wisconsin-Madison, Materials Science and Engineering, University of Wisconsin: Madison
Max Lagally

University of Wisconsin-Madison, Materials Science and Engineering, University of Wisconsin: Madison, Materials Science and Engineering, Univ of Wisconsin-Madison
Susan Coppersmith

Physics, University of Wisconsin-Madison, Univ of Wisconsin, Madison, University of Wisconsin-Madison, Physics, University of Wisconsin: Madison, Department of Physics, Univ of Wisconsin, Madison, Department of Physics, University of Wisconsin - Madison, Department of Physics, University of Wisconsin-Madison, Physics, Univ of Wisconsin, Madison
M. A. Eriksson

Physics, University of Wisconsin-Madison, University of Wisconsin-Madison, Physics, University of Wisconsin: Madison, Univ of Wisconsin, Madison, Department of Physics, University of Wisconsin-Madison