Generation of Optical Coherent State Superpositions by Number-Resolved Photon Subtraction from Squeezed Vacuum

Aaron J. Miller; Adriana E. Lita; Alan L. Migdall; Brice Calkins; Emanuel Knill; Richard P. Mirin; Sae Woo Nam; Scott Glancy; Thomas Gerrits; Tracy S. Clement

arxiv: 1004.2727 · v4 · pith:JNM2FDIHnew · submitted 2010-04-15 · 🪐 quant-ph

Generation of Optical Coherent State Superpositions by Number-Resolved Photon Subtraction from Squeezed Vacuum

Thomas Gerrits , Scott Glancy , Tracy S. Clement , Brice Calkins , Adriana E. Lita , Aaron J. Miller , Alan L. Migdall , Sae Woo Nam

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Richard P. Mirin Emanuel Knill

This is my paper

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keywords photonscoherentcsssphotonphoton-number-resolvingsqueezedstatesubtracting

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We have created heralded coherent state superpositions (CSS), by subtracting up to three photons from a pulse of squeezed vacuum light. To produce such CSSs at a sufficient rate, we used our high-efficiency photon-number-resolving transition edge sensor to detect the subtracted photons. This is the first experiment enabled by and utilizing the full photon-number-resolving capabilities of this detector. The CSS produced by three-photon subtraction had a mean photon number of 2.75 -0.24/+0.06 and a fidelity of 0.59 -0.14/+0.04 with an ideal CSS. This confirms that subtracting more photons results in higher-amplitude CSSs.

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Generation of Optical Coherent State Superpositions by Number-Resolved Photon Subtraction from Squeezed Vacuum

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