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Central China Normal University, Physics Position ID: CCNU -Physics -PDLQCD2025 [#29851] Position Title: Position Location: Wuhan, Hubei 430079, China [map ] Subject Areas: Lattice QCD and Heavy
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Posting Details Position Details Title Postdoctoral Position in Lattice Field Theory Appointment Status Non-Tenure Track Department IU Bloomington Physics Location Bloomington Position Summary
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) the creation of many-body quantum states of molecules in optical lattices for quantum simulation (3) the production of strongly dipolar Bose-Einstein condensates of molecules. The post holders are therefore
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dimensions in molecules confined in rotationally magic traps and (2) the creation of many-body quantum states of molecules in optical lattices for quantum simulation (3) the production of strongly dipolar Bose
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, LHC , Machine Learning , Neutrino , Neutrino physics and Astrophysics , Phenomenology , Quantum Field Theory , Theoretical Particle Physics , theory , Lattice QCD Appl Deadline: 2025/12/01 11:59PM
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Inria, the French national research institute for the digital sciences | Paris 15, le de France | France | 3 days ago
Lattice Codes” (BoLaCo) project, a French-German collaboration funded by the ANR and the DFG, in partnership with Prof. Jens Eisert’s group at Freie Universität Berlin. The project aims to develop new
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to baryogenesis and dark matter, quantum chromodynamics and lattice gauge theory, effective field theory, and nuclear astrophysics. Group members include Profs. Jason Evans, Shao-Feng Ge, Sophia Han, Hong-Jian He
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, Beyond the Standard Model phenomenology, precision calculations for the LHC and intensity frontier, overlaps of particle physics and cosmology, and lattice gauge theory. The lattice efforts span weak
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quarks at the accelerator experiments, based on new nonrelativistic effective field theories and novel lattice QCD calculations. Targets are all aspects of the XYZs: spectra, decays, transitions
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. These include (1) encoding synthetic dimensions in molecules confined in rotationally magic traps and (2) the creation of many-body quantum states of molecules in optical lattices for quantum simulation (3