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Applications of Superconducting Electronics and Detectors Workshop

US/Eastern
F113 (Thomas Jefferson National Accererator Facility Cebaf Center)

F113

Thomas Jefferson National Accererator Facility Cebaf Center

12000 Jefferson Avenue Newport News, VA 23606, USA
Description

Workshop on Superconducting Electronics and Detectors

This workshop will be bringing specialists in superconducting electronics and detectors to meet with the nuclear physics users community.

Superconductors have always held many promises in terms of power savings with the advent of superconducting cavities and superconducting magnets. Since superconductivity is based on loosely bound Cooper pairs, some of the best energy and timing resolutions have been achieved with superconducting detectors such as Transition Edge Sensors and Superconducting Tunnel Junction, Superconducting Nanowires. The main drawback being the low temperature required for operation. This issue can be somewhat alleviated in places where cryogenics is readily available such as Jefferson Laboratory or other major Physics facilities. This can give an opportunity to take advantage of the performances of superconducting devices.

Main topics :

· Superconducting detectors technologies  

· Superconducting electronics

· Cryogenics electronics readout

· Properties of superconductors materials and films for detector and electronics productions

· Lithography techniques

· Application of superconducting detectors and electronics for Quantum Computing and AI Machine learning

· Application for physics experiment

· Cryogenics techniques and apparatus

Register at :

https://misportal.jlab.org/Ul/conferences/generic_conference/registration.cfm?conference_id=SUPERCONDUCTING-NOV2022

Organizing Committee:

Alexandre Camsonne

Anne-Marie Valente

Anna Herr

Confirmed speakers :

Quentin Herr (IMEC) : Superconducting Electronics and Application to Machine Learning Systems

Varun Verma (NIST) : SNSPD developements at NIST

Whitney Armstrong (Argonne) : SNSPD for EIC

Jonathan Creel (JLab) : Cryogenics at JLab

Christopher Keith (JLab): Cryogenics for polarized target

Thomas Gerrit (NIST) : Transition Edge Sensors

Stephan Friedrich (LLNL) : Superconducting Tunnel Junctions

Briton Plourde (Syracuse University) : Josephson Junction based Quantum Computing

Robert Edwards (JLab): The EIC on a Table Top

Matthew Shaw (NASA JPL) : SNSPDs developments at JPL

Davide Braga (Fermilab): cryogenics ASICs

Karl Berggren (MIT) :  Cryo-CMOS and superconducting electronics

Mark Zagarola (Creare) : Low Temperature Turbo-Brayton Cryocoolers

For on site attendance registration is required at least 7 days before the event.

 

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This project is supported by the Initiatives Fund Program, a JSA commitment, to support programs, initiatives, and activities that further the scientific outreach, promote the science, education and technology of Jefferson Lab and benefit the Lab’s extended user community in ways that complement the Lab’s basic and applied research missions.

 

    • Quantum computing
      • 10
        Josephson Junction based Quantum Computing
        Speaker: Briton Plourde (Syracuse University)
      • 11
        The EIC on a Table Top
        Speaker: Robert Edwards (Jefferson Lab)
    • CMOS readout: Cryogenics CMOS electronics
    • Superconducting electronics: Electronics and readout
      • 15
        Superconducting Electronics and Application to Machine Learning Systems
        Speaker: Dr Quentin Herr (IMEC)
      • 16
        Superconducting Digital Electronics for Cryogenic Detectors

        The superior performance of arrays of superconducting detectors for
        high energy physics is well known, in terms of their sensitivity and
        speed. These signals are generally amplified and read out and
        analyzed using room-temperature digital electronics some distance
        away. However, an alternative approach is to carry out data
        conversion and partial analysis using digital superconducting
        electronics located close to the cryogenic detectors. This can be
        achieved using ultrafast, ultra-low-power superconducting logic based
        on single-flux-quantum (SFQ) pulses. Relevant devices include
        analog-to-digital converters (ADCs), time-to-digital converters
        (TDCs). digital filters, and digital control logic. Performance of
        these digital circuits is discussed together with applications to
        superconducting detector arrays and superconducting qubits.

        Speaker: Dr Elie Track (HYPRES)
      • 3:20 PM
        Coffee break
      • 17
        Cryotrons
        Speaker: Prof. Karl Berggren (MIT)
      • 18
        A superconducting nanowire pulse counter integrated with an SNSPD
        Speaker: Matteo Castellani (MIT)
      • 19
        A superconducting binary shift register for SNSPD readout
        Speaker: Reed Foster (MIT)
    • Discussion electronics: Discussion electronics and readout
    • Dinner on your own
    • Superconducting detectors
      • 20
        Jefferson Laboratory Cryogenics overview
        Speaker: Jonathan Creel (Jefferson Lab)
      • 21
        Transition Edge Sensors
        Speaker: Thomas Gerrits (NIST)
      • 22
        UV pixellized SNSPDs at NIST
        Speaker: Adam McCaughan
      • 10:30 AM
        Coffee break
      • 23
        SNSPDs developments at JPL
        Speaker: Matt Shaw
      • 24
        Superconducting Tunnel Junctions
        Speaker: Stephan Friedrich (LLNL)
      • 25
        Discussion detectors
        Speaker: Alexandre Camsonne (Jefferson Laboratory)
    • 12:30 PM
      Lunch
    • IARPA meeting Supertools: IARPA Supertools
    • Cryogenics
      • 26
        SNSPD at Argonne National Lab
        Speaker: Whitney Armstrong (Argonne National Laboratory)
      • 27
        Refrigerator for Polarized Targets
        Speaker: Chris Keith (Jefferson Lab)
      • 3:40 PM
        Coffee break
      • 28
        Low Temperature Turbo-Brayton Cryocoolers
        Speaker: Mark Zagarola (Creare)
    • Discussion superconducting detectors and cryogenics
    • Dinner on your own
    • 29
      IARPA Supertools
    • Applications

      Possible applications of superconducting electronics and detectors