Sort by
Refine Your Search
-
Program
-
Field
-
. The scientifically and technically challenging project will be carried out with a team of industry researchers to facilitate rapid development in technology readiness and real-world testing. Applicants should have an
-
prototypes.Applicants for these positions should hold a PhD degree in physics, electrical engineering, or materials science. Applicants should preferably have prior research experience in one or more of the following
-
applications of the developed quantum light sources and participating in technology transfer efforts. Qualifications: To be successful in this role, you should possess the following qualifications: A Ph.D
-
Principal Investigator: David Hawthorn Project: Development of Inverse Photoemission Spectroscopy for quantum materials Term: 2 years Research Area: Quantum Materials Relevant Fields: quantum materials, superconductors, photoelectron spectroscopy, electronic structure Required Skills: A Ph.D. in...
-
fabrications, low-temperature cryogenic transport measurements, Design/Modeling of CNT quantum electronic devices Relevant Fields: Physics, Chemistry, Material Science Engineering, Chemical Engineering, Electric
-
developing quantum machine learning techniques. Relevant Fields: Physics, Electrical and Computer Engineering or equivalent field Required Skills: Strong condensed matter physics, statistical physics, quantum
-
range of MR spectrometers (NMR, ESR, optically and electrically detected magnet resonance). Applicants should have an advanced degree (PhD) in physics, chemistry, or engineering, and should have
-
: Physics, Chemistry, Material Science Engineering, Electric Engineering or equivalent field Required Skills: Strong hands-on optical characterization experience (photoluminescence/ electroluminescence
-
: Machine learning/deep learning model development for biomolecular data analyses and prediction Research Area: Data science and computational chemistry Required Skills: A Ph.D. in relevant field within
-
: Quantum simulation with Rydberg atom arrays (theory) Research Area: Atomic, molecular, and optical physics (AMO), quantum control, quantum simulation Relevant Fields: Quantum information science, quantum