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1 mentally realize this platform using diamond nitrogen-vacancy centers and use it to investigate magno
2 ble parameters, indicate that decoherence of Nitrogen-Vacancy centers can be controlled externally to
3 oherent dynamics of a single central spin (a nitrogen-vacancy center) coupled to a bath of spins (nit
5 f a single electronic spin associated with a nitrogen vacancy center in diamond can be coupled to the
6 Using a quantum sensor associated with the nitrogen vacancy center in diamond, we experimentally de
9 ry, we predicted that the negatively charged nitrogen vacancy center in piezoelectric aluminum nitrid
11 vered by the microwave transmission line, to nitrogen--vacancy centers in the diamond microcrystal.
12 herent orbital and spin dynamics of a single nitrogen-vacancy center in diamond over time scales span
13 n individual electron spin associated with a nitrogen-vacancy center in diamond was used to gain insi
14 We consider an electronic spin, such as a nitrogen-vacancy center in diamond, weakly coupled to a
17 We use single-spin qubits associated with nitrogen-vacancy centers in diamond to probe Johnson noi
19 s for controlling various coherence times of Nitrogen-Vacancy centers; our method is based on a hybri
20 Despite the motion and random orientation of nitrogen-vacancy centers suspended in the optical trap,
21 to extend the spin coherence time of shallow nitrogen-vacancy centers, we demonstrate magnetic field
22 ated by simulating quantum open systems with Nitrogen-Vacancy centers, which has become an increasing
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