CEC/ICMC 2023 Abstracts & Technical Program

Session

J4Or1A: Joint Session: Superconducting Quantum Systems

13 Jul 2023, 10:00

323A

Conveners

J4Or1A: Joint Session: Superconducting Quantum Systems

• Ziad Melhem (Oxford Quantum Solutions)
• Jonathan Prance (Lancaster University)

490. J4Or1A-01: [Invited] Goldeneye - Large Scale Cryogenics for Next Generation of Superconducting-Based Quantum Computers.

Pat Gumann (IBM)

13/07/2023, 10:00

Invited Oral

Quantum computing is a fast-developing field pursued by many academic groups as well as industry R&D centers. I will give a short overview of the current state-of-the-art superconducting qubit-based quantum computing efforts at IBM using our Condor quantum processor development as an example, followed by revealing glimpse of project Goldeneye - the first quantum-ready large cryogenic concept...

116. J4Or1A-02: [Invited] An Update on the Colossus mK Platform at Fermilab

Matthew Hollister (Fermi National Accelerator Laboratory)

13/07/2023, 10:30

Invited Oral

As part of the efforts of the Superconducting Quantum Materials and Systems National Quantum Center at Fermilab, we will construct a large millikelvin refrigeration platform known as Colossus. The Colossus platform will be used for quantum computing applications, along with physics and sensing experiments. At the preceding CEC/ICMC meeting in 2021, we reported on the conceptual design of the...

239. J4Or1A-03: Characterizing MEMS Switch Reliability for Cryogenic Applications such as Quantum Computing

Mr Peter Bradley (National Institiute of Standards and Technology)

13/07/2023, 11:00

Contributed Oral

Peter E. Bradley1, Elizabeth Sorenson1,2, Damian Lauria1, Li-Anne Liew1
1National Institute of Standards and Technology, Colorado, USA
2 University of Colorado at Boulder, Colorado, USA

Micro Electro Mechanical Systems (MEMS) switches possess many advantages over their bigger conventional counterparts, such as much smaller size, weight and power consumption. Being able to operate MEMS...

381. J4Or1A-04: Fundamental superconductivity of Nb films for quantum computing application

Dr Zuhawn Sung (Fermi National Accelerator Laboratory)

13/07/2023, 11:15

Contributed Oral

Niobium is a widely accepted material for quantum computing device as well as superconducting radio frequency (SRF) technology. Superconducting niobium is a marginal type II superconductor which has a very narrow gap (~20-30 mT) of the mixed state at 2K, even showing the intermediate state (IMS) at the early stage of magnetic vortex penetration. Tremendous progress has been made in...