Adam Sirois

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Josephson Arbitrary Waveform Synthesizer

NIST Increases the Speed of Superconducting Circuits by Advancing Josephson Junction Barrier Technology

May 1, 2023

On May 1, 2023, NIST researchers published a paper titled: “ Nb/a-Si/Nb Josephson junctions for high-density superconducting circuits” by David Olaya, John

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Publications

MEMSDuino: An Arduino-Based MEMS Switch Controller

May 1, 2025

Author(s)

Lafe Spietz, Adam Sirois, Nathan Flowers-Jacobs, Peter Hopkins, Samuel Benz, Steve Waltman

Radio frequency cryogenic switches are a critical enabling technology for quantum information science, both for calibration and high throughput testing of

On-Chip Frequency Conversion Using Kinetic Inductance Within a Coplanar Waveguide

October 24, 2024

Author(s)

Grant Giesbrecht, Nathan Flowers-Jacobs, Adam Sirois, Manuel Castellanos Beltran, Michael Vissers, Jiansong Gao, Taylor Barton, Paul Dresselhaus

Characterizing a Frequency Converter Based on a Superconducting Coplanar Waveguide

July 30, 2024

Author(s)

Grant Giesbrecht, Nathan Flowers-Jacobs, Adam Sirois, Manuel Castellanos Beltran, Michael Vissers, JIANSONG GAO, Paul Dresselhaus, Taylor Barton

We present a technique for implementing a frequency doubler in NbTiN on silicon for operation in a cryogenic environment. The kinetic inductance of a

Coherence-limited digital control of a superconducting qubit using a Josephson pulse generator at 3 K

May 8, 2023

Author(s)

Manuel Castellanos Beltran, Adam Sirois, Logan Howe, David Olaya, John Biesecker, Samuel P. Benz, Pete Hopkins

Compared to traditional semiconductor control electronics (TSCE) located at room temperature, cryogenic single flux quantum (SFQ) electronics can provide qubit

Nb/a-Si/Nb-junction Josephson-based arbitrary waveform synthesizers for quantum information

February 24, 2023

Author(s)

David Olaya, John Biesecker, Manuel Castellanos Beltran, Adam Sirois, Paul Dresselhaus, Samuel P. Benz, Pete Hopkins, Logan Howe

We demonstrate Josephson arbitrary waveform synthesizers (JAWS) with increased operating temperature range for temperatures below 4 K. These JAWS synthesizers

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Adam Sirois (Fed)

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