-
contribute to the collaborative TQT research community. Principal Investigator: David G. Cory Project: Methods for coherent control and validation The project involves both theory and experiment. Number
-
background and strong analytical skills in quantum physics and applied mathematics, including familiarity with exact and approximate methods to solve for and control the time-evolution of quantum many-body
-
, molecular properties, and pathological images. Strong knowledge and experience in data science algorithms, methods, and analysis techniques. Experience in programming using Python and R languages and working
-
lasers (ECDL, Ti:Sa, Fiber), stabilization systems (optical phase lock loop, high-finesse cavity), digital and analog control electronics, active diffractive optical elements (spatial light modulators
-
devices. The project will rely on UHV and MBE growth. It will connect both materials and device characteristics to improved growth methods. Experience with the following is useful: UHV methods MBE XRD LT
-
physics and quantum optics Relevant Fields: Phase transitions, topological materials, quantum optics Required Skills: Hands-on experience with optic and quantum optics elements, handling brittle and