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1 iamond cantilever to the spin of an embedded nitrogen-vacancy centre.
2 n of the (13)C ensemble in the vicinity of a nitrogen-vacancy centre.
3 ield collection of the fluorescence from the nitrogen-vacancy centre.
4 f functionality not available to the diamond nitrogen-vacancy centre.
5 implemented using a single nuclear spin in a nitrogen-vacancy centre.
6 that are comparable to those of the diamond nitrogen-vacancy centre.
7 band of diamond by two-photon ionization of nitrogen-vacancy centres.
8 strict scalable and feasible manipulation of nitrogen-vacancy centres.
9 gates using the solid-state spins of diamond nitrogen-vacancy centres.
10 33 kHz, which is unprecedented for scanning nitrogen-vacancy centres.
11 sed on the detection of photons emitted from nitrogen-vacancy centres, a process limited by the effic
12 iple for detecting the magnetic resonance of nitrogen-vacancy centres, allowing the direct photoelect
14 , electrons, cavity quantum electrodynamics, nitrogen-vacancy centres and superconducting quantum bit
15 spin bath in diamond by using an ensemble of nitrogen-vacancy centres, and demonstrated excellent agr
16 tically induced spin polarization of diamond nitrogen vacancy centres at room temperature in combinat
17 This is achieved by positioning a single nitrogen-vacancy centre at the end of a high-purity diam
18 Here, we use a diamond-nanocrystal-hosted nitrogen-vacancy centre attached to the apex of a silico
19 gnitude in the spin coherence time (T(2)) of nitrogen-vacancy centres compared with previous measurem
21 onstrate experimentally that 42% of a single nitrogen-vacancy centre emission efficiently couples int
23 ntly, a point defect in diamond known as the nitrogen-vacancy centre has attracted a great deal of in
24 -state spin qubit system associated with the nitrogen vacancy centre in diamond, using coherent feedb
26 ccessfully observed for spins in silicon and nitrogen vacancy centres in diamond, and for orbital mot
27 nstrate a single-photon source composed of a nitrogen-vacancy centre in a diamond nanowire, which pro
30 e ability to control the interaction between nitrogen-vacancy centres in diamond and photonic and/or
34 We demonstrate a protocol using individual nitrogen-vacancy centres in diamond to observe the time
36 is case, substitutional nitrogen and neutral nitrogen-vacancy centres in diamond, through optically d
42 as a stable alternative, and, in the case of nitrogen-vacancy centres, offer spin quantum bits with o
43 allowing the direct photoelectric readout of nitrogen-vacancy centres spin state in an all-diamond de
44 rm for addressing and controlling individual nitrogen-vacancy centre spins in diamond at room tempera
45 nt interest in a hybrid system consisting of nitrogen-vacancy centre spins that interact with the res
46 itate design guidelines for devices based on nitrogen-vacancy centres that use these freestanding hyb
47 ons rely on the ability to position a single nitrogen-vacancy centre within a few nanometres of a sam
48 strate a robust method for scanning a single nitrogen-vacancy centre within tens of nanometres from a
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