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microwave photons, such as those generated by superconducting qubits, to optical photons with high efficiency in the visible and infrared ranges. This is particularly important for transferring quantum
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. Microscopy and Microanalysis 21; 765-770, 2015 Tselev A, Velmurugan J, Ievlev AV, Kalinin SV, A. Kolmakov A: Seeing Through Walls at the Nanoscale: Microwave Microscopy of Enclosed Objects and Processes in
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in variable charge supramolecular cages with microwave microfluidics. Communications Chemistry, 2019. 2(1): p. 54. Smolyanitsky, A., E. Paulechka, and K. Kroenlein, Aqueous Ion Trapping and Transport
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at scales never before achievable. We are using high frequency microwave signals to electronically manipulated and measure single electron spins. To realize the necessary atomic precision, we are using
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standard thermal imagers and pyrometers that are sensitive in the infrared, Rydberg atoms are sensitive in the microwave (20 GHz to 200 GHz, roughly), where the blackbody field is 10,000 times smaller. In