Superconducting Qubits: Design and Simulation
FOCUS · MAR-A14 · ID: MAR-A14
Presentations
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Modeling and Simulation of Realistic Multilayer Devices in Superconducting Quantum Electronics
Invited-In-person · Invited
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Publication: Colletta et al. Appl. Phys. Lett. 126, 142601 (2025)
Presenters
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Martin Weides
- University of Glasgow
Authors
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Martin Weides
- University of Glasgow
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Alessandro Casaburi
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Giuseppe Colletta
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Jonathan Collins
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Susan Johny
- University of Glasgow
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Streamlining superconducting qubit design with an open source workflow
Oral-In-person · Withdrawn
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Presenters
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Firas Abouzahr
- Northwestern University
Authors
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Firas Abouzahr
- Northwestern University
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Systematic Construction of Time-Dependent Hamiltonians for Microwave-Driven Josephson Circuits, Part 1: Modeling Coherent Modulation Induced by Electric and Magnetic Fields
Oral-In-person
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Publication: Systematic Construction of Time-Dependent Hamiltonians for Microwave-Driven Josephson Circuits, in preparation
Presenters
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Xinyuan You
- Fermi National Accelerator Laboratory (Fermilab)
Authors
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Xinyuan You
- Fermi National Accelerator Laboratory (Fermilab)
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Yao Lu
- Fermi National Accelerator Laboratory (Fermilab)
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Tianpu Zhao
- Northwestern University
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André Vallières
- Northwestern University
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Kevin Smith
- Brookhaven National Laboratory (BNL)
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Daniel Weiss
- Quantum Circuits Inc.
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Yaxing Zhang
- Google LLC
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Suhas Ganjam
- Google LLC
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Aniket Maiti
- Google Quantum AI
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John Garmon
- Yale University
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Shantanu Mundhada
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Ziwen Huang
- AWS Center for Quantum Computing
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Ian Mondragon-Shem
- University of Illinois at Chicago
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Steven Girvin
- Yale University
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Jens Koch
- Northwestern University
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Robert Schoelkopf
- Yale University
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Systematic Construction of Time-Dependent Hamiltonians for Microwave-Driven Josephson Circuits, Part 2: Modeling Decoherence from Lossy Drive Ports
Oral-In-person
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Publication: Systematic Construction of Time-Dependent Hamiltonians for Microwave-Driven Josephson Circuits, in preparation
Presenters
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Tianpu Zhao
- Northwestern University
Authors
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Tianpu Zhao
- Northwestern University
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Yao Lu
- Fermi National Accelerator Laboratory (Fermilab)
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André Vallières
- Northwestern University
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Kevin Smith
- Brookhaven National Laboratory (BNL)
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Daniel Weiss
- Quantum Circuits Inc.
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Xinyuan You
- Fermi National Accelerator Laboratory (Fermilab)
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Yaxing Zhang
- Google LLC
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Suhas Ganjam
- Google LLC
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Aniket Maiti
- Google Quantum AI
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John Garmon
- Yale University
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Shantanu Mundhada
- Yale University
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Ziwen Huang
- AWS Center for Quantum Computing
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Ian Mondragon-Shem
- University of Illinois at Chicago
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Steven Girvin
- Yale University
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Jens Koch
- Northwestern University
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Robert Schoelkopf
- Yale University
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Network Analysis Methods for Modular Simulation
Oral-In-person
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Presenters
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Larry Chen
- University of California, Berkeley
Authors
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Larry Chen
- University of California, Berkeley
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Brian Marinelli
- University of California, Berkeley
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David Santiago
- Lawrence Berkeley National Laboratory
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Irfan Siddiqi
- University of California, Berkeley
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Estimating Node Capacitances of Large Transmon Networks and their Scaling Behavior
Oral-In-person
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Presenters
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Aki Dote
- Fujitsu Ltd.
Authors
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Aki Dote
- Fujitsu Ltd.
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Shoichi Shiba
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Keisuke Kato
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Peter Spring
- RIKEN
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Shuhei Tamate
- RIKEN
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Norinao Kouma
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Yasunobu Nakamura
- RIKEN
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Shintaro Sato
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Quantum electrodynamics with Josephson junctions.
Oral-In-person
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Presenters
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Alberto Del Ángel Medina
- Chalmers University of Technology
Authors
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Alberto Del Ángel Medina
- Chalmers University of Technology
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Ricardo Gutiérrez Jáuregui
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Anton Frisk Kockum
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Effective lumped models of distributed elements for modularity and scaling in superconducting device design
Oral-In-person
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Presenters
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Elizabeth Kunz
- University of Southern California
Authors
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Elizabeth Kunz
- University of Southern California
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Eli Levenson-Falk
- University of Southern California
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Precise 2D electric field density simulations for superconducting quantum devices
Oral-In-person
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Publication: Z. Gimbutas, W.-R. Syong, N. Nguyen, A. Taylor, B. Alpert, D. Bennett, and C.R.H. McRae. Precise 2D electric field density simulations for superconducting quantum devices (in preparation).
Presenters
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Corey Rae McRae
- University of Colorado Boulder
Authors
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Corey Rae McRae
- University of Colorado Boulder
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Zydrunas Gimbutas
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Wei-Ren Syong
- University of Colorado, Boulder
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Nhi Nguyen
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Bradley Alpert
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Douglas Bennett
- National Institute of Standards and Technology (NIST)
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Ariana Taylor
- University of Texas at San Antonio
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Tensor networks for non-perturbative driven black-box quantization of superconducting circuit
Oral-In-person
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Presenters
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Emilio Rui
- ALICE & BOB - INRIA
Authors
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Emilio Rui
- ALICE & BOB - INRIA
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Alexandru Petrescu
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Joachim Cohen
- ALICE & BOB
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Modeling superconducting-qubit processors and simulators beyond 100 qubits
Oral-In-person
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Presenters
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Simon Pettersson Fors
- Chalmers University of Technology
Authors
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Simon Pettersson Fors
- Chalmers University of Technology
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Eric Lindgren
- Chalmers Univ of Tech
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Jorge Fernández Pendás
- Chalmers University of Technology
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Anton Frisk Kockum
- Chalmers University of Technology
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Computationally Efficient Design Optimization of Superconducting Quantum Devices
Oral-In-person
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Presenters
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James Shackford
- Johns Hopkins University Applied Physics Laboratory
Authors
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James Shackford
- Johns Hopkins University Applied Physics Laboratory
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Samuel Kim
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Maya Amouzegar
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Kevin Schultz
- Johns Hopkins University Applied Physics Laboratory
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Optimization workflow for comprehensive design and loss estimation in superconducting circuits
Oral-In-person
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Presenters
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Eelis Takala
- IQM Quantum Computers
Authors
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Eelis Takala
- IQM Quantum Computers
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Jukka Räbinä
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Tuomas Mylläri
- IQM Quantum Computers
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Pavel Smirnov-Ylikangas
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Andrew Guthrie
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Alessandro Landra
- IQM Quantum Computers
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Soumya Ranjan Das
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Rakshyakar Giri
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Kristinn Juliusson
- IQM Quantum Computers
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Erno Damskägg
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Jeffrey Chan
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Matti Partanen
- IQM Quantum Computers
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Ivan Takmakov
- IQM Quantum Computers
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Antti Vepsalainen
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Hsiang-Sheng Ku
- IQM Quantum Computers
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Caspar Ockeloen-Korppi
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