Conference on New Frontiers in Scaling Quantum: from Materials and Hardware to Architectures and Components

Administration

Description

An ICTP meeting

The central challenge in building a scalable quantum computer is achieving effective quantum error correction (QEC). Large arrays of superconducting qubits are currently a leading platform for the implementation of QEC. The success of these implementations relies on the synergy of accurate understanding of the device physics and associated noise, of efficient and practical quantum codes, and of the integration of these two in the form of tileable architectures.

In this conference, we plan to bring together scientists working in the following three major areas:

New materials and hardware foundations
New quantum LDPC codes
New hardware architectures and components

and encourage stronger communication between them. We especially hope to foster improved interactions between industry and academia.

Speakers:
L. Ateshian, MIT, USA

D. Bacon, Google, USA

M. Carroll, IBM, USA

N. de Leon, Princeton University, USA

C. Deng, Alibaba, China

M. Devoret, Google and Yale, USA

R. Gao, Alibaba, China

C. Gidney, Google, USA

T. Gozlinski, Karlsruhe Institute of Technology, Germany

W. Livingston, Google, USA

R. McDermott, UW Madison, USA

A. McDonald, University of Sherbrooke, Canada

A. Megrant, Google, USA

D. Pappas, Rigetti, USA

B. Plourde, Syracuse University, USA

I. Pop, KIT, Karlsruhe, Germany

N. Roch, Neel Institute Grenoble, France

D. Rower, MIT, USA

B. Sacepe, Neel Institute Grenoble, France

B.M. Smitham, Princeton University, USA

Y. Tabuchi, Japan

G. Tancredi, Chalmers University of Technology, Sweden

A. Ustinov, KIT, Karlsruhe, Germany

A. Wallraff, ETH, Switzerland

F. Yan, Beijing Academy of Quantum Information Science, China

Poster abstract: Applicants are encouraged to submit an abstract for a poster session. Please use the ICTP templates that are available below for download.

Grants: A limited number of grants are available to support the attendance of selected participants, with priority given to participants from developing countries. There is no registration fee.

Material

Abstract Template Booklet Posters Abstracts Final list of Participants Group photo How to choose your Time Zone Poster

Conference on New Frontiers in Scaling Quantum: from Materials and Hardware to Architectures and Components | (smr 3916)

Go to day

Monday, 15 January 2024

08:30 - 09:00 Registration formalities

REGISTRATION: Upon arrival, Visitors not staying in the ICTP Guest Houses, are kindly requested to complete registration formalities at the Leonardo building (Lobby). The Registration Desk will be open from 8.30 to 9.00.

09:00 - 17:30 Noise (TLS, quasiparticles, spins) and new materials (I)

09:00 Introduction for students: TLS 45'

Speaker: Rosario Fazio (ICTP), Matt McEwen (Google), Lara Faoro (Google)

09:45 Voltage Induced Annealing of Aluminum Oxide Tunnel Junctions 45'

Speaker:	David Pappas (Rigetti)
Material:	Video

10:30 Coffee break 30'

11:00 Enhancing the coherence of superconducting qubits with electric fields 45'

Speaker:	Alexey Ustinov (Karlsruhe Institute of Technology)
Material:	Video

11:45 Probing the magnetic field dependence of flux noise with superconducting qubits 45'

Speaker:	David Rower, Lamia Ateshian (MIT, Lincoln Lab)
Material:	Video

12:30 Lunch break 1h0'
13:30 Inductive losses in flux qubits:limitation and perspectives 45'

Speaker: Ioan Pop (Karlsruhe Institute of Technology)

14:15 New material platforms for quantum computing 45'

Speaker:	Nathalie de Leon (Princeton University)
Material:	Video

15:00 Coffee break 30'

15:30 Round table I 2h0'

Speaker:

Michel Devoret (Google and Yale), Nathalie de Leon (Princeton University), George Sterling (Google), Dave Pappas (Rigetti), Alexey Ustinov (Karlsruhe Institute of Technology)

18:00 - 19:00 Welcome reception

Location:

ICTP ( Leonardo Building Cafeteria )

Tuesday, 16 January 2024

09:00 - 17:30 Quasiparticles and strongly disordered superconductors

09:45 Photon-assisted Quasiparticle Poisoning in Superconducting Qubits 45'

Speaker:	Robert McDermott (University of Wisconsin-Madison)
Material:	Video

10:30 Coffee break 30'
11:00 Insight into superconductivity in granular aluminium from millikelvin scanning tunnelling spectroscopy 45'

Speaker: Thomas Gozlinski (Karlsruhe Institute of Technology)

11:45 On the role of disorderness in superconducting materials on qubit coherence 45'

Speaker:	Ran Gao (Alibaba)
Material:	Video

12:30 Lunch break 1h0'

13:30 Strongly disordered superconductors for superinductances 45'

Speaker:	Benjamin Sacepe (NEEL Institut CNRS)
Material:	Video

14:15 Mean-field theory of first order quantum superconductor-insulator transition 45'

Speaker:	Mikhail Feigelman (Nanocenter Ljubljana)
Material:	Video

15:00 Coffee break 30'

15:30 Round table II 2h0'

Speaker:

Michel Devoret (Google and Yale), Britton Plourde (Syracuse University), Robert McDermott (University of Wisconsin-Madison), Lev Ioffe (Google), Ioan Pop (Karlsruhe Institute of Technology)

Wednesday, 17 January 2024

09:00 - 17:30 Challenge of large scale devices

09:00 Using bi-fluxon tunneling to protect the Fluxonium qubit 45'

Speaker:	Nicolas Roch (NEEL Institut CNRS)
Material:	Video

09:45 Two level system dynamics and simulations of surface code sensitivities to non-identical infidelity distributions 45'

Speaker:	Malcolm Carroll (IBM)
Material:	Video

10:30 Group photo 5'
10:35 Coffee break 25'

11:00 Electromagnetic simulation methods for planar superconducting circuits 45'

Speaker:	Basil M. Smitham (Princeton University)
Material:	Video

11:45 Toward Fault Tolerant quantum computing with superconducting fluxonium 45'

Speaker:	Chunqing Deng (Alibaba)
Material:	Video

12:30 Lunch break 1h0'
13:30 System integration in superconducting quantum computers 45'

Speaker: Yutaka Tabuchi (Riken)

14:15 Scalable 3D integration of high-performance superconducting qubits 45'

Speaker:	Giovanna Tancredi (Chalmers University of Technology)
Material:	Video

15:00 Coffee break 30'

15:30 Round table III 2h0'

Speaker:

Michel Devoret (Google and Yale), Yutaka Tabuchi (Riken), Malcolm Carroll (IBM), Chunqing Deng (Alibaba), Giovanna Tancredi (Chalmers University of Technology)

Thursday, 18 January 2024

09:00 - 17:30 Surface code and new error correction LDPC

09:00 Adapting QEC circuits to hardware strengths 45'

Speaker:	Matt McEwen (Google)
Material:	Video

09:45 TBA 45'

Speaker:	Andreas Wallraff (ETHZ)
Material:	Video

10:30 Coffee break 30'

11:00 Halving the size of Surface Codes with Yokes 45'

Speaker:	Craig Gidney (Google)
Material:	Video

11:45 Quantum shift register (dialup) codes 45'

Speaker:	Lara Faoro (Google)
Material:	Video

12:30 Lunch break 1h0'
13:30 Poster session 1h30'

Material: Booklet Posters abstracts
15:00 Coffee break 30'

15:30 Round table IV 2h0'

Speaker:

Michel Devoret (Google and Yale), Alexei Kitaev (CALTECH and Google), Matt McEwen (Google), Craig Gidney (Google), Lev Ioffe (Google), Michael Freedman (UCSB and Google), Andreas Wallraff (ETHZ)

Friday, 19 January 2024

09:00 - 14:15 Challenge of Readout and long distance connections

09:00 Measurement-induced transmon ionization 45'

Speaker:	Alexander McDonald (Sherbrooke University)
Material:	Video

09:45 Error Correction with continuous syndrome measurements 45'

Speaker:	William Livingston (Google)
Material:	Video

10:30 Coffee break 30'

11:00 Multiplexed control scheme for scalable quantum information processing with superconducting qubits 45'

Speaker:	Fei Yan (Beijing Academy of Quantum Information Science)
Material:	Video

11:45 Phonon-mediated quasiparticle poisoning and correlated errors in superconducting qubit arrays 45'

Speaker:	Britton Plourde (Syracuse University)
Material:	Video

12:30 Concluding remarks 10'

Speaker: Michel Devoret (Google and Yale)
12:40 Lunch break 1h0'