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Deterministic Laser Writing and Laser Annealing of Colour Centres in Diamond

Benjamin Griffiths

Ultrafast laser processing was shown recently to facilitate the generation of NV centres in diamond with spin coherence (300K) approaching 1 ms, a yield of about 40% and a positioning accuracy of better than one micrometre [1]. Here we report an adapted method for laser writing of individual colour centres which involves local laser annealing combined with feedback via a fluorescence monitor [2]. This method provides both improved positioning accuracy and near-unity yield for NV generation. We used a monocrystalline diamond sample with [Ns] ~2 ppm. Vacancies were generated with a single pulse from a 790 nm Ti:Sapphire laser. Local annealing was achieved with a 1 kHz stream of lower energy pulses. A fluorescence monitor allowed observation of the creation of NV centres in real time during annealing, such that deterministic writing was achieved by terminating processing when NV fluorescence was observed. Figure 1 shows an array of sites alongside a histogram of their autocorrelation functions; 24 of the sites contain single NV centres, representing a yield of 96%. The positions of the NVs were measured by recording fluorescence imagesand fitting analytic functions. Figure 2 shows the results revealing scatter of ~40 nm laterally and 200 nm axially, about a factor of five better than with a thermal anneal. The use of a pulsed laser to perform local annealing is the key to deterministic writing as it allows site-specific control over the process.

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