New research suggests a way to capture physicists' most wanted particle—gravitons
New research suggests a way to capture physicists' most wanted particle—gravitons #physics #particles #gravitons #QuantumSensing

My PhD thesis has been published!
If you're interested in how to manipulate atoms into their coldest possible state using lasers, and why it's interesting to drop them in a 10m vacuum tower, this is for you! Also, fun with "painting" arbitrary shapes with laser beams!
#physics #AtomInterferometry #Quantum #QuantumSensing
https://doi.org/10.15488/17346

Time for those end-of-year things...what do you think has been the most important, intriguing, unexpected, promising or just delightful development in #quantumcomputing or #quantumInternet or #quantumsensing this year?

#introduction I'm Michael Goerz, a computational physicist working on #quantum #optimalcontrol. Initially, in the context of #quantumcomputing in open quantum systems (Rydberg atoms, ions, superconducting qubits), current applications tend towards robust #quantumsensing. Most of my time is spent developing methods and software. I have a long background in #Fortran and #Python. My primary language today is #julialang, working on the QuantumControl.jl package.