JPA with Improved bandwidth and saturation of power, Part I: Design

Michael Selvanayagam; Dennis Feng; Mehrnoosh Vahidpour; Saniya Deshpande; Ting-Wai To; Blake Johnson; Damon Russell; Chad Rigetti

JPA with Improved bandwidth and saturation of power, Part I: Design

ORAL

Abstract

An attractive strategy for scaling up superconducting qubits is to multiplex qubit readout onto a single line. This places a constraint on the parametric amplifier which amplifies the readout signal to have increased bandwidth and saturation power capabilities so that multiple readout pulses can be handled. Here, we present the design approach used at Rigetti to realize both broadband JPA's and JPA's with higher saturation power. For increasing bandwidth we analyze an optimization procedure to realize impedance matching networks given a desired bandwidth. We present the performance of the JPAs from our numerical solutions

March 8, 2018, 10:36 AM – March 8, 2018, 10:48 AM

Presenters

Michael Selvanayagam
- Rigetti Quantum Computing

Authors

Michael Selvanayagam
- Rigetti Quantum Computing
Dennis Feng
- Rigetti Quantum Computing
Mehrnoosh Vahidpour
- Rigetti Quantum Computing
Saniya Deshpande
- Rigetti Quantum Computing
Ting-Wai To
- Rigetti Quantum Computing
Blake Johnson
- Rigetti Quantum Computing
- Rigetti Computing
Damon Russell
- Rigetti Quantum Computing
Chad Rigetti
- Rigetti Quantum Computing