Effect of a nanoparticle on the optical properties of a photonic crystal cavity: theory and experiment

Sar, Toeno van der; Hagemeier, Jenna; Pfaff, Wolfgang; Heeres, Erwin C; Thon, Susanna M.; Kim, Hyochul; Petroff, P. M.; Tjerk, Oosterkamp; Bouwmeester, Dirk; Hanson, Ronald K.

doi:10.1364/josab.29.000698

Cited by 7 publications

(2 citation statements)

References 17 publications

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“…For experiments in which nanodiamonds are intended as probes of, or sources to be embedded in, nanophotonic environments, a size smaller than that of the 100 nm nanodiamonds would be advantageous, as smaller size implies higher spatial resolution and a lower perturbative effect on the modes of the nanophotonic system [62,63]. Therefore, we repeated the brightness and decay rate statistical measurements for the 25 nm sample, i.e.…”

Section: Brightness and G (2) (0)mentioning

confidence: 99%

Suitability of nanodiamond nitrogen–vacancy centers for spontaneous emission control experiments

Mohtashami

Koenderink

2013

New J. Phys.

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Nitrogen-vacancy (NV) centers in diamond are generally recognized as highly promising as indefinitely stable highly efficient single-photon sources. We report an experimental quantification of the brightness, radiative decay rate, nonradiative decay rate and quantum efficiency of single NV centers in diamond nanocrystals. Our experiments show that the commonly observed large spread in fluorescence decay rates of NV centers in nanodiamond is inconsistent with the common explanation of large nanophotonic mode-density variations in the ultra-small high-index crystals at near-unity quantum efficiency. We report that NV centers in 25 nm nanocrystals are essentially insensitive to local density of optical states (LDOS) variations that we induce at a dielectric interface by using liquids to vary the refractive index, and propose that quantum efficiencies in such nanocrystals are widely distributed between 0 and 20%. For single NV centers in larger 100 nm nanocrystals, we show that decay rate changes can be reversibly induced by nanomechanically approaching a mirror to change the LDOS. Using this scanning mirror method, for the first time we report calibrated quantum efficiencies of NV centers, and show that different but nominally identical nanocrystals have widely distributed quantum efficiencies between 10 and 90%. Our measurements imply that nanocrystals that are to be assembled into hybrid photonic structures for cavity QED should first be individually screened to assess fluorescence properties in detail.

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Section: Brightness and G (2) (0)mentioning

confidence: 99%

Suitability of nanodiamond nitrogen–vacancy centers for spontaneous emission control experiments

Mohtashami

Koenderink

2013

New J. Phys.

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“…For quantum emitters placed at the surface it is crucial to achieve sufficient electromagnetic coupling to the cavity. Different approaches have been reported so far, such as placing the emitter on the slab surface in the center of the cavity or inside an adjacent hole [21,22].…”

Section: Introductionmentioning

confidence: 99%

Numerical analysis of subwavelength field effects in photonic crystal slab cavities

2020

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Surface coupling of single quantum emitters to optical cavities consisting of a photonic crystal slab is a delicate yet crucial task for photonic quantum applications. By coupling through the evanescent surface field only small Purcell factors can be achieved. Here, we propose to introduce a pit in the slab to position the emitter closer to the mode field maximum. Photonic crystal slab L3 cavities are investigated with respect to quality factor and Purcell effect, using finite element calculations in the frequency domain. That way the spatial distribution of the Purcell factor can be calculated. Introducing a small sized pit to the surface of the photonic crystal cavity can evoke subwavelength field effects, confining the field maximum inside the pit. By engineering a pit in the center of the cavity the Purcell factor can be increased from 176 to 1331, albeit reducing the Q factor from 20769 to 16696.

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Integration of high transmittance photonic crystal H2 nanocavity and broadband W1 waveguide for biosensing applications based on Silicon-on-Insulator substrate

Zhou

Tian

Yang

et al. 2014

Optics Communications

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Effect of a nanoparticle on the optical properties of a photonic crystal cavity: theory and experiment

Cited by 7 publications

References 17 publications

Suitability of nanodiamond nitrogen–vacancy centers for spontaneous emission control experiments

Suitability of nanodiamond nitrogen–vacancy centers for spontaneous emission control experiments

Numerical analysis of subwavelength field effects in photonic crystal slab cavities

Integration of high transmittance photonic crystal H2 nanocavity and broadband W1 waveguide for biosensing applications based on Silicon-on-Insulator substrate

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