Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Employer
- Nanyang Technological University
- University of Oslo
- The University of Queensland
- Indiana University
- Johns Hopkins University
- University of New South Wales
- Coventry University Group;
- George Mason University
- Harvard University
- High Energy Accelerator Research Organization
- Hong Kong University of Science and Technology
- Keio University
- Macquarie University
- National University of Singapore
- Nature Careers
- OsloMet
- Paul Scherrer Institut Villigen
- Simula Research Laboratory
- TAMPERE UNIVERSITY
- University of Nottingham
- University of Nottingham;
- University of Stavanger
- 12 more »
- « less
-
Field
-
and simulation and have high performance computing resources on-site. They expand into emerging frontier areas, such as they did, for example, over the past decade in quantum information and quantum
-
for Academic Performance . For further information, please click here to view the information booklet. About You Completion (or near completion for Level A) of a PhD in theoretical quantum physics, condensed
-
of our staff are post-docs, post-graduates or apprentices. Altogether, PSI employs 2300 people. For the Ion Trap Quantum Computing Group and the Quantum Computing Hub at the Laboratory for Nano- and
-
investigates how quantum coherence, entanglement, and driving give rise to non‑classical collective phenomena. The role involves independent, high‑quality research in theoretical and computational quantum
-
quantum computing, aiming to solve small, complex sub-problems using Quantum Process Units (QPUs) while leveraging classical High-Performance Computing (HPC) on data-intensive tasks. With dedicated
-
Theory , condensed matter theory, theoretical physics, quantum photonic theory, AMO theory , Physics , theoretical condensed matter physics , Theoretical condensed matter physics; high energy physics
-
-envelope phase/offset, balanced homodyne detection; keywords in theory includes: relativistic quantum information science, quantum field theory, quantum optics, quantum fluctuations of the vacuum, Unruh
-
by ARPES, pursue scalable wafer-scale moiré epitaxy, develop epitaxial superconductors for quantum computing and integrate machine learning for automated high-throughput MBE. We are particularly
-
, balanced homodyne detection; keywords in theory includes: relativistic quantum information science, quantum field theory, quantum optics, quantum fluctuations of the vacuum, Unruh-DeWitt detector model
-
at generating training sets with high-order quantum calculations and designing combined models for the exchange and correlation energy using non-local features of electronic density and orbitals. Qualifications