Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
, United States of America [map ] Subject Areas: Nuclear Theory / Dense QCD , Heavy-ion physics , Nuclear Structure Theory Appl Deadline: none (posted 2025/11/05) Position Description: Apply Position Description Brookhaven
-
, religion, sex, sexual orientation, gender identity, national origin, citizenship, age, disability or protected veteran status. Required Degree Doctorate -Electrical Engineering, Physics, Mechanical
-
including patch clamp recording on cardiac ion channels and nAChR for action potential, Na+ currents, K+ currents, Ca2+ currents and single channel current with whole-cell or outside-out modes; • Patch Clamp
-
Scheduled Hours 40 Position Summary The Evers lab is a small, tight-knit lab (5-7 members) that works on sterol modulation of membrane proteins, with a strong focus on neurosteroid modulation of ion
-
that include lattice gauge theory, chiral perturbation theory, hadron structure, factorization, effective theories, heavy quark physics, jet physics, heavy ion collision physics, quark-gluon plasma in QCD and
-
University of California, Los Angeles | Los Angeles, California | United States | about 2 months ago
on the formation and evolution of the Solar System through the high-precision isotopic analysis of extraterrestrial materials. Using secondary ion mass spectrometry (SIMS), the candidate will examine solar
-
for two-year postdoctoral positions in Nuclear Theory to begin in Fall 2026. Candidates are expected to have a Ph.D. in nuclear theory or a closely related field by the beginning of the postdoctoral
-
including, but not limited to: aerodynamics of inlets and exhausts, propulsion/airframe integration, electric/ion/plasma applications for propulsion, propulsion systems modeling, propellants and fuels
-
legislature. In addition, this position currently serves as liaison between the RSDP program and the University of Minnesota Institute on the Environment (IonE). In the liaison role, the Executive Director
-
candidates whose work has the potential to impact space electronics and aligns with the MSU Space Electronics Initiative , in close collaboration with the on-campus high-energy ion test facilities . Highly