Recent progress towards microwave assisted spin-spin entanglement will be presented. Scanning tunneling microscopes (STMs) are conventionally used to probe surfaces with atomic resolution. Moreover, the spin-photon coupling mechanism can be turned off by localizing the spin in one side of the double quantum dot. We achieve a spin-photon coupling rate as large as \(g _s/2 \) = 2.4 MHz, firmly anchoring our system in the strong-coupling regime. Vacuum Rabi splitting is observed in the cavity transmission as the Zeeman splitting of a single spin is tuned into resonance with the cavity photon. Here we combine a large electric-dipole interaction with spin-orbit coupling to achieve spin-photon coupling.
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However, this isolation comes with a cost, as it is difficult to coherently couple two spins in the solid state, especially when they are separated by a large distance. Jason Robert Petta is in the Systems Analysis and Engineering Consulting Services business. View Jason Pettas profile on LinkedIn, the worlds largest professional community. In the past, Jason has also been known as Jason Robert Petta and Jason R Petta. Jason Petta lives in Princeton, NJ previous cities include Ithaca NY and Somerville MA. Stefan Putz, David Zajac, Jacob Taylor, and Guido BurkardĮlectron spins are excellent candidates for solid state quantum computing due to their exceptionally long quantum coherence times, which is a result of weak coupling to environmental degrees of freedom. Jason Petta is 46 years old today because Jason's birthday is on. it combines ideas in traditional condensed matter physics with quantum mechanics, quantum optics, and nanoscale chemical synthesis. 1 He married Tana Maria Gräfin Praschma, Freiin von Bilkau, daughter of Friedrich Theodor Graf Praschma, Freiherr von Bilkau and Marguerita Jennifer Hare, on 9 August 2002. Presenting Author: Jason Petta, Princeton UniversityĬontributing Author(s): Xiao Mi, Felix Borjans, Xanthe Croot, Felix Schupp, Monica Benito, Towards microwave assisted spin-spin entanglement