Nanotechnology Now – Press Release: CEA Is the First Research Center to Acquire A Cryogenic Prober for Testing Quantum Bits


Home > Press > CEA Is the First Research Center to Acquire A Cryogenic Prober for Testing Quantum Bits

Abstract:
CEA announced today the acquisition of a Cryogenic Wafer Prober manufactured by Bluefors Oy, the Finnish specialist in designing and manufacturing ultralow temperature-dilution refrigerator systems for cutting-edge research in quantum computing and nanotechnology. CEA-Leti, a technology research institute at CEA, is the first microelectronics research institute to install this strategic equipment in its cleanroom.

CEA Is the First Research Center to Acquire A Cryogenic Prober for Testing Quantum Bits


Grenoble, France | Posted on February 10th, 2021

Created by Bluefors Oy and the Finnish company Afore, the cryogenic prober is a tool that enables fully automatic measurements of 300mm wafers at temperatures below 2K. This new tool allows up to 100x faster throughput in sample characterization than existing systems and is expected to dramatically accelerate development of cryogenic quantum devices, electronics and detectors. It will be used to characterize CEA-Leti’s silicon-based qubits, measuring their performance at temperatures between 2K and 4K, extendable to 20K. This acquisition will be used on CEA-Leti’s 300mm wafer-fabrication line.

CEA-Leti’s installation of a cryogenic-compatible prober from Bluefors brings an important new capability to the institute’s development infrastructure, with the ability to run electronic tests at gigahertz frequencies and extremely low temperatures on our 300mm line, said Franois Perruchot, CEA-Leti’s quantum program coordinator and engineer.

Low-temperature characterization is a critical step for developing a quantum computer based on spin qubits, as confinement of few electrons or holes in quantum dots typically appears at temperatures below 4K. Moreover, although coherent spin operation in qubits requires temperatures, for now, below 1K, this limit may be raised in the near future.
The acquisition is part of CEA-Leti’s mission to become a leader in quantum computing and to strengthen the EU’s position in the global race to develop, commercialize and use this strategic technology. Its other recent developments include research breakthroughs that pave the way for massive integration of qubits, which is required for quantum supremacy, and building a quantum-photonics platform to ensure ultra-secure data for vital global industries such as finance, health care, energy, telecommunications and defense.

####

For more information, please click here

Contacts:
Press Contact

Agency

+33 6 74 93 23 47

Copyright © CEA Leti

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:
Delicious
Digg
Newsvine
Google
Yahoo
Reddit
Magnoliacom
Furl
Facebook

News and information

Producing more sustainable hydrogen with composite polymer dots UPPSALA UNIVERSITY February 12th, 2021

Scientists manipulate magnets at the atomic scale February 12th, 2021

Nanowire could provide a stable, easy-to-make superconducting transistor: Inspired by decades-old MIT research, the new technology could boost quantum computers and other superconducting electronics February 12th, 2021

Oxford Instruments Plasma Technology relocates to advanced manufacturing facility: Move driven by exceptional business growth February 12th, 2021

Possible Futures

Producing more sustainable hydrogen with composite polymer dots UPPSALA UNIVERSITY February 12th, 2021

Scientists manipulate magnets at the atomic scale February 12th, 2021

Nanowire could provide a stable, easy-to-make superconducting transistor: Inspired by decades-old MIT research, the new technology could boost quantum computers and other superconducting electronics February 12th, 2021

Oxford Instruments Plasma Technology relocates to advanced manufacturing facility: Move driven by exceptional business growth February 12th, 2021

Quantum Computing

Nanowire could provide a stable, easy-to-make superconducting transistor: Inspired by decades-old MIT research, the new technology could boost quantum computers and other superconducting electronics February 12th, 2021

New EU Quantum Flagship consortium launches a project on silicon spin qubits as a platform for large-scale quantum computing: The QLSI project brings together 19 top European groups to focus on developing highly scalable quantum processors in silicon, and marks a recent addition February 10th, 2021

CEA-Leti Team Paves the Way for Massive Integration of Qubits, Critical for Achieving Quantum Supremacy February 10th, 2021

Home > Press release French Team on Route Towards an Interposer Prototype for Quantum And Control Chips Integration at Very Low Temperature: Platform Optimizes Control and Readout of Qubits by Placing Control Electronics Near Quantum Chips Without Wire Bonding February 10th, 2021

Announcements

Producing more sustainable hydrogen with composite polymer dots UPPSALA UNIVERSITY February 12th, 2021

Scientists manipulate magnets at the atomic scale February 12th, 2021

Nanowire could provide a stable, easy-to-make superconducting transistor: Inspired by decades-old MIT research, the new technology could boost quantum computers and other superconducting electronics February 12th, 2021

Oxford Instruments Plasma Technology relocates to advanced manufacturing facility: Move driven by exceptional business growth February 12th, 2021

Tools

High-speed holographic fluorescence microscopy system with submicron resolution: The group has realized a scanless 3D imaging system and an algorithm for high-speed measurement January 29th, 2021

Adaptive optics with cascading corrective elements: A cascaded dual deformable phase plate wavefront modulator enables direct AO integration with existing microscopes–doubling the aberration correction range and greatly improving image quality January 22nd, 2021

USTC develops ultrahigh-performance plasmonic metal-oxide materials January 11th, 2021

High-speed atomic force microscopy visualizes cell protein factories January 8th, 2021

Leave a Reply

Your email address will not be published. Required fields are marked *