Fig. 1 Charge manipulation and readout in diamond.

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Presentation transcript:

Fig. 1 Charge manipulation and readout in diamond. Charge manipulation and readout in diamond. (A) Energy diagram for NV− and NV0. In (1) and (2), the successive absorption of two photons (wavy arrows) of energy equal or greater than 1.95 eV (637 nm) propels the excess electron of an NV− into the conduction band, leaving the defect in the neutral ground state (solid arrows). In (3) and (4), an NV0 consecutively absorbs two photons of energy equal or greater than 2.16 eV (575 nm) transforming into NV−. CB, conduction band; VB, valence bands. (B) Top: A binary pattern on an NV−-rich background is imprinted via spatially selective red illumination (632 nm, 350 μW, 100 ms per pixel). Bottom: Starting from an NV−-depleted background, the pattern results from selective illumination with green laser light (532 nm, 30 μW, 5 ms per pixel). From left to right, images are the result of three successive readouts of the same original imprint via a red scan (200 and 150 μW for the upper and lower rows, respectively). In all cases, the image size is 100 × 100 pixels, and the integration time is 1 ms per pixel. kcps, kilocounts/s. Siddharth Dhomkar et al. Sci Adv 2016;2:e1600911 Copyright © 2016, The Authors