It is finally out......
Now everyone can compute the optical absorption properties of their favorite material "dressed" by arbitrary drive laser intensity and photon energy and observe Floquet replicas in solids.
Together with @BingGu8@FrancoGroupUofR
https://t.co/sNYfC8Ou29
Oh wow, we just got a paper published in @Nature !
In it we show how to user lasers to construct the fastest-ever logic gates, which are the basic building blocks of computers.
So exciting!
@URochesterChem@UniFAU@UofR
https://t.co/dll5ojj11m
https://t.co/WA2vIw1aJy
Hey #compchem, simulating nuclear wavepackets? We've got a protocol for you so you can excite them with entangled photons:
https://t.co/JI8hVyMwxV
All credits to @BingGu8 !
I am thrilled to share that I will be joining Northeastern University Department of Chemical Engineering @NU_ChemE as an Assistant Professor starting from January 2022! Many thanks to my mentors and coworkers in Carter Group at @EPrinceton, and @KulikGroup@MITChemE!
Here is an animation showing #polariton formation: an exciton (electron-hole pair) recombines into a photon, which bounces on the cavity mirrors until reabsorbed to form an exciton. The process repeats to form a superposition of photon and exciton states: an exciton polariton.
Congratulations to Dr. Arkajit Mandal @arkajitmandal , who successfully defended his thesis yesterday! Arkajit developed new quantum dynamics simulation approaches, and investigated new chemistry enabled by quantum optics tools! We are extremely proud of your accomplishments!
Tomorrow, Thurs, 9/9, Arkajit Mandal/@arkajitmandal, PhD student in the @HuoGro, presents his PhD Defense: "Quantum Dynamics Simulation of Photons and Molecules ". Join us! https://t.co/b01pxZy9pQ
Journal Club: Feng Chen and Shaul Mukamel from @UCIrvine@UCIChemistry use time-energy entangled photons to suppress electronic-Raman background in vibrational hyper-Raman molecular spectroscopy.
https://t.co/j3MIQt8fvp
Having searched and failed to find as a postdoc any potential gain in molecular spectroscopy due to squeezing, seeing these experimental realizations of early theory by K. Dorfman and S. Mukamel is very exciting. Bright and squeezed future ahead!
https://t.co/mfqYBmWlaV
Taking quantum mechanics for the 1st time this Fall? You must be learning 1D particle-in-a-box now. Check out this interactive tutorial to learn to write Python codes to visualize the PIB wave function. Run the code in your browser, on your phone! https://t.co/KjoiyqCBJ6
News from our Spectroscopy-of-Conical-Intersections-Department: Use non-invasive resonant infrared fields to enhance the coherence!
Out now @J_A_C_S
https://t.co/ioFKk8Sg1z
Congrats to our dear @Leopoldo_Mejia_ for hitting out of the ballpark during his Ph.D. defense today! How awesome has it been to watch you develop! @URochesterChem
Your code might be reproducible, but is it reusable? We discuss the importance of making research code reusable in our latest editorial. #reproducibility#reusability https://t.co/tXJsEs64Ek