MULTIBAND RESONANT RAMAN LIGHT SCATTERING IN DIAMOND WITH NITROGEN VACANCY CENTERS
https://doi.org/10.25205/2541-9447-2018-13-3-73-77
Abstract
We report results of polarized Raman scattering and photoluminescence studies of nitrogen-doped diamond. Experimental data demonstrates observation of an anomalous increase in the intensity of the inelastic light scattering by optical phonons and photoluminescence at room temperature by both zero-phonon lines: for the neutral nitrogen NV0 center at 575.468 nm and for the other negatively-charged nitrogen NV- center 637.874 nm as well as for their vibronic phonon side bands correspondingly distributed in a wide spectral range. The data enables observation of the strong in-coming resonance for nitrogen NV0 and out-going resonance for nitrogen NV- centers.
About the Authors
B. H. Bairamov
Ioffe Institute RAS; St. Petersburg National Research Academic University RAS
Russian Federation
Russian Federation
V. V. Toporov
Ioffe Institute RAS
Russian Federation
Russian Federation
F. B. Bayramov
St. Petersburg National Research Academic University RAS
Russian Federation
Russian Federation
A. D. Bouravleuv
St. Petersburg National Research Academic University RAS
Russian Federation
Russian Federation
J. T. Holmi
Aalto University
Russian Federation
Russian Federation
H. .. Lipsanen
Aalto University
Russian Federation
Russian Federation
V. P. Popov
Rzhanov Institute of Semiconductor Physics SB RAS
Russian Federation
Russian Federation
I. N. Kuprianov
Sobolev Institute of Geology and Mineralogy SB RAS
Russian Federation
Russian Federation
Yu. N. Palyanov
Sobolev Institute of Geology and Mineralogy SB RAS
Russian Federation
Russian Federation
D. .. Braukmann
Technische Universitat Dormund
Russian Federation
Russian Federation
J. .. Debus
Technische Universitat Dormund
Russian Federation
Russian Federation
D. R. Yakovlev
Ioffe Institute RAS; Technische Universitat Dormund
Russian Federation
Russian Federation
M. .. Bayer
Ioffe Institute RAS; Technische Universitat Dormund
Russian Federation
Russian Federation
References
1. Raman C. V. A change of wave-length in light scattering // Nature. 1928. Vol. 121. P. 619.
2. Landsberg G., and Mandelstam L. Eine neue Erscheinung bei der Lichtzerstreuung in Krystallen // Naturwissenschaften. 1928. Bd. 16. S. 557.
3. Light Scattering in Solids, Topics in Applied Physics / Ed. by M. Cardona and G. Guntherodt. Springer, Berlin, Heidelberg, New York, 1974. 543 p.
4. Bairamov B. H., Goltsev A. V., Karaiamaki E., Laikho R., Levola T., Toporov V. V. Resonant Brillouin Scattering of Light by Thermal Acoustic Phonons in ZnSe Crystals // Sov. Phys. Solid State. 1983. Vol. 25. P. 739-744.
5. Karajamaki E., Laiho R., Levola T., Bairamov B. H., Goltsev A. B., Toporov V. V.
6. Determination of Deformation Potential Constants by Brillouin Scattering of Light // Phys. Rev. B. 1984. Vol. 29. P. 4508-4516.
7. Bayramov F. H., Irmer G., Toporov V. V., Bairamov B. H. Structural, Optical and Electrical Properties of Semiconductor Compounds Studied by Means of Inelastic Light Scattering from Phonon, Electron and Coupled Electron-Phonon Excitations: From Bulk to Nanoscale Structures // Jap. J. Apll. Phys. 2011. Vol. 50. P. 05FE06.
8. Cantarero A., Trallero-Giner C., Cardona M. Excitons in one-phonon resonant Raman scattering: Deformation-potential interaction // Phys. Rev. B. 1989. Vol. 39. P. 8388.
9. Atature M., Englund D., Vamivakas N., Lee S. Y., Wrachtrup J. Material platforms for spin-based photonic quantum technologies // Nature Reviews Materials. 2018. Vol. 3. P. 38-51.
Review
For citations:
Bairamov B.H., Toporov V.V., Bayramov F.B., Bouravleuv A.D., Holmi J.T., Lipsanen H..., Popov V.P., Kuprianov I.N., Palyanov Yu.N., Braukmann D..., Debus J..., Yakovlev D.R., Bayer M... MULTIBAND RESONANT RAMAN LIGHT SCATTERING IN DIAMOND WITH NITROGEN VACANCY CENTERS. SIBERIAN JOURNAL OF PHYSICS. 2018;13(3):73-77. (In Russ.) https://doi.org/10.25205/2541-9447-2018-13-3-73-77
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