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We are seeking a highly motivated postdoctoral researcher to work on
quantum error correction (QEC) and fault-tolerant quantum computing
(FTQC) for photonic and spin-optical architectures. The successful
candidate will work part-time in the QEC/FTQC team of Quandela (Massy,
Paris region, France) and part-time in the Institut Mathématiques de
Bordeaux, under the supervision of Prof. Gilles Zémor, for an initial
two-year term, with the possibility of extension.
Join the Fault-Tolerant Quantum Computing (FTQC) team within
Quandela’s Scalable Architecture division. As a senior Quantum Error
Correction researcher (permanent position), you will shape the
development of our fault-tolerant quantum computing architecture. Your
insights will guide the evolution of our long-term roadmap and
contribute to the robustness and scalability of Quandela’s cutting-edge
hardware.
Quandela is a spinout company from the French national laboratory
CNRS, based in the Paris region, that develops quantum computers based
on the manipulation of single photons. Its core technology is
quantum-dot single-photon sources with a spin degree of freedom,
enabling quantum information to be encoded on both spins and photons.
Quandela’s R&D teams conduct research on semiconductor quantum dots,
quantum optics and integrated photonics, device modelling, error
mitigation, compilation, quantum error correction, and algorithms.
TCG Centres for Research and Education in Science and Technology (TCG
CREST) aspires to be a world-leading research institute in the area of
science and technology. The objectives of TCG CREST are to conduct basic
and translational research at the frontiers of both science and
technology, and impart high quality education to PhD scholars. The
Centre for Quantum Engineering, Research and Education (CQuERE) is one
of the centres at TCG CREST dedicated to performing cutting edge
research and high-quality education at the PhD level in the emerging
areas of quantum science and technology, and thereby train future
researchers for academia and industry. The research at CQuERE is being
carried out to meet some of the objectives of the National Quantum
Mission.
Submitted by
Jarryd Pla on Thu, 24/04/2025 - 09:25.
The research group of Associate Professor Jarryd Pla has an opening
for a Post-Doctoral Fellow. In this role, you will conduct simulations,
design, and experimental work on superconducting quantum devices to
perform quantum-noise-limited measurements at elevated temperatures
(> 1.5 Kelvin).
Here, at the University of Sheffield, we are a theory group focussing
on Quantum Error Correction (QEC) and its applications, for example in
Quantum Metrology. We are also interested in fundamental problems in
quantum metrology, such as in multiparameter state estimation (and
applications).
We are located in the lovely city of Sheffield, in the United
Kingdom.
IQM is looking for an expert in quantum error correction and
fault-tolerant quantum computing. Lots of opportunities to grow, lots of
friends to be made! Feel free to contact francisco.revson@meetiqm.com
if interested or apply under the link below.
Ved’S Search is a multidisciplinary research initiative at the
intersection of quantum computing, artificial intelligence, and
mathematical optimization, founded by researcher Taleb Mohammed
Said.
The group aims to explore and model hybrid quantum algorithms,
cognitive quantum systems, and intelligent optimization frameworks. It
also serves as an open-access hub for scientific exploration and
dissemination in multiple languages (English, French, and Arabic).
As part of Ved’S Research & Development, we provide:
Submitted by
natestemen on Fri, 11/04/2025 - 22:19.
Dates:
Thursday, July 17, 2025 to Friday, July 18, 2025
This workshop will bring together researchers, developers, and
practitioners working on all aspects of Quantum Error Mitigation (QEM)
and error resilient compilation - from those studying sampling costs to
those implementing protocols in real-world quantum computing
pipelines.
Submitted by
likeabosch on Wed, 09/04/2025 - 11:56.
Application deadline:
Friday, December 12, 2025
Quantum computing offers a transformative approach to materials
simulation, potentially performing quantum-mechanical calculations
orders of magnitude faster and more accurately than classical methods on
conventional high-performance computers. This unlocks the true
computational design of novel materials, paving the way for solutions to
global challenges related to sustainability and renewable energies. This
capability can revolutionize various fields, enabling, for example, the
improvement of catalytic processes and a deeper, atomistic understanding
of material degradation. These advancements pave the way for
knowledge-based optimization of load, process, and operating conditions
in devices like fuel cells, ultimately reducing our reliance on scarce,
environmentally harmful, and expensive materials. The focus of the PhD
thesis is the development and testing of hybrid quantum-classical
workflows and relevant models for simulating industrially relevant
materials on a near-term quantum computer.
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