Publications

The following papers published in JOSA B, Optics Express, Optics Letters, Phys. Rev. Lett., JAP and PRA  are made available as electronic reprints with the permission of OSA, AIP and APS. The papers can be found on the OSA, AIP and APS websites by clicking on the paper’s title. Systematic or multiple reproduction or distribution to multiple locations via electronic or other means is prohibited and is subject to penalties under law.

Citation statistics at Google Scholar

  1. High-contrast Kerr frequency combs,” I. S. Grudinin, V. Huet, N. Yu, A. B. Matsko, M. L. Gorodetsky, and Lute Maleki, Optica 4(4), 434-437 (2017).
  2. On the properties of single-mode optical resonators,” J. M. Winkler, I. S. Grudinin, N. Yu, Opt. Express 24(12) 13231-13243 (2016).
  3. Properties of fluoride microresonators for mid-IR applications,” I. S. Grudinin,  K. Mansour, N. Yu, Opt. Lett. 41(10) 2378-2381 (2016).
  4. Spatiotemporal dynamics of Kerr-Raman optical frequency combs,” Y. K. Chembo, I. S. Grudinin, N. Yu, Phys. Rev. A 92(4), 043818 (2015).
  5. Dispersion engineering of crystalline resonators via microstructuring,” I. S. Grudinin and N. Yu, Optica, 2(3), 221-224 (2015). (arXiv:1406.2682)
  6. Frequency combs from crystalline resonators: influence of cavity parameters on comb dynamics,” I. S. Grudinin and N. Yu, Opt. Eng. 53(12), 122609 (2014) (arXiv:1406.0790)
  7. “Waveguide couplers for ferroelectric optical resonator,”  I. S. Grudinin, A. Kozhanov, N. Yu, arXiv:1404.6582
  8. “Impact of cavity spectrum on span in microresonator frequency combs,” I. S. Grudinin, L, Baumgartel, and N. Yu, Opt. Express 21, 26929-26935 (2013).
  9. “Polarization conversion loss in birefringent crystalline resonators,” I. S. Grudinin, G. Lin, and N. Yu, Opt. Lett.  38,  2410-2412 (2013). PDF
  10. “Finite-element modeling of coupled optical microdisk resonators for displacement sensing,” I. S. Grudinin, and N. Yu, J. Opt. Soc. Am. B 29, 3010-3014 (2012). PDF
  11. High-Q UV whispering gallery mode resonators made of angle-cut BBO crystals,” G. Lin, J. Fürst, D. V. Strekalov, I. S. Grudinin, and N. Yu, Opt. Express 20, 21372-21378 (2012). PDF
  12. Frequency comb from a microresonator with engineered spectrum,” I. S. Grudinin, L. Baumgartel, and N. Yu, Opt. Express 20, 6604-6609 (2012). PDF
  13. “Temperature measurement and stabilization in a birefringent whispering gallery mode resonator,” D.V. Strekalov, R.J. Thompson, L.M. Baumgartel, I.S. Grudinin, and N. Yu . Opt. Express. 19, 14495-14501 (2011). PDF
  14. “Compensation of thermal nonlinearity effect in optical resonators,” I. S. Grudinin, H. Lee, T. Chen, and K. J. Vahala. Opt. Express. 19, 7365-7372 (2011). PDF
  15. “Phonon laser action in a tunable two-level system,” I. S. Grudinin, H. Lee, O. Painter, and K. J. Vahala. Phys. Rev. Lett. 104, 083901 (2010). Copyright (2010) by the APS. PDF
  16. “Thermal instability of a compound resonator,” I. S. Grudinin and K. J. Vahala, Opt. Express, 17, 14088-14097 (2009). PDF
  17. “Generation of optical frequency combs with a CaF2 resonator,” I. S. Grudinin, N. Yu, and L. Maleki, Opt. Letters 34, 878-880 (2009). PDF
  18. “Brillouin Lasing with a CaF2 Whispering Gallery Mode Resonator,” I. S. Grudinin, A. B. Matsko, and L. Maleki, Phys. Rev. Lett. 102, 043902 (2009). Copyright (2009) by the APS. PDF
  19. “Efficient Raman laser based on a CaF2 resonator,” I. S. Grudinin and L. Maleki, J. Opt. Soc. Am. B 25, 594-598 (2008). PDF
  20. “On the fundamental limits of Q factor of crystalline dielectric resonators,” I. S. Grudinin, A. B. Matsko, L. Maleki, Opt. Express 15, 3390-3395, 2007. PDF
  21. “Ultralow threshold Raman lasing with CaF2 resonators,” I. S.Grudinin and Lute Maleki, Opt. Letters 32 , 166-168, (2007). PDF
  22. “Ultra high Q of crystalline cavities in linear regime,” I. S. Grudinin, V. S. Ilchenko, and L. Maleki, Phys. Rev. Lett. A 74, 063806, (2006). Copyright (2006) by the APS. PDF
  23. “Optical vortices with large space charge: generation and interference,” A. A.Savchenkov, A. B. Matsko, I. S. Grudinin, E. A. Savchenkova, D. Strekalov, and L. Maleki, Opt. Express 14 , 2888-2897 (2006). PDF
  24. “Morphology dependent photonic circuit elements,” A. A. Savchenkov, I. S.Grudinin, A. B. Matsko, D. Strekalov, M. Mohageg, V. S. Ilchenko, and L. Maleki. Opt. Letters 31, 1313-1315, (2006). PDF
  25. “Ultra high Q crystalline microcavities,” I. S. Grudinin, A. B. Matsko, A. A. Savchenkov, D. Strekalov, V. S. Ilchenko, and L. Maleki, Opt. Com. 265, 33-38 (2006).
  26. “Nonstationary nonlinear effects in optical microsheres,” I. S. Grudinin, M. L. Gorodetsky, V. S. Ilchenko, A. E. Fomin, J. Opt.  Soc. Am. B 22, 459-465  (2005). PDF
  27. “Enhanced photothermal displacement spectroscopy for thin-film characterization using a Fabry-Perot resonator,” E. D. Black, I. S. Grudinin, S. R. Rao, K. G. Libbrecht, J. App. Phys. 95, 7655-7659 (2004). PDF
  28. “Fundamental thermal fluctuations in microspheres,” M. L. Gorodetsky, I. S. Grudinin, J. Opt.  Soc. Am. B 21, 697-705 (2004). PDF

Conference proceedings

  1. I. S. Grudinin, K. Mansour, N. Yu, “Optical frequency comb and spectroscopy with crystalline resonators in MIR,” Proc SPIE (2016).
  2. I. S. Grudinin and N. Yu, “Towards efficient octave-spanning comb with micro-structured crystalline resonator,” Proc. of SPIE 9343, 93430F (2015).
  3. K. Mansour, A. S. Rury, I. S. Grudinin, N. Yu, “Progress towards whispering gallery mode resonator based spectroscopy in mid-infrared”, Proc. SPIE 8960, 89600Y (2014).
  4. G. Lin, J. U. Fürst, D. V. Strekalov, I. S. Grudinin, N. Yu, “High-Q BBO whispering gallery mode resonators,” Proc. SPIE 8600, 86000P (2013).
  5. N. Yu, L. M. Baumgartel, Y. Chembo, I. S. Grudinin, D. V. Strekalov, R. J. Thompson, “Whispering-gallery-mode resonators for miniature optical clocks”, Proc. SPIE 8236, 82360P (2012).

Contribution or acknowledgments

  1. US Patent 7,535,634 “Optical device, system, and method of generating high angular momentum beams”
  2. US Patent 7,440,651 “Single mode whispering-gallery-mode resonator”
  3. “Light absorption enhancement in ultrathin solar cells using whispering gallery modes in dielectric nanospheres” J. Grandidier, D. M. Calahan, J. N. Munday and H. A. Atwater. Advanced Materials 23, 1272-1276 (2011).
  4. Modeling of octave-spanning Kerr frequency combs using a generalized mean-field Lugiato-Lefever model,” S. Coen, H. G. Randle, M. Erkintalo,  arXiv:1211.1697 (2012)
  5. “Focused ion beam engineered whispering gallery mode resonators with open cavity structure,” D. C. Aveline, L. Baumgartel, B. Ahn, N. Yu, Optics Express 20, 18091-18096 (2012)
  6. Frequency stability of a dual-mode whispering gallery mode optical reference cavity,” L. M. Baumgartel, R. J. Thompson, N. Yu, Opt. Express 20, 29798-29806 (2012).
  7. Generation of optical combs in a whispering gallery mode resonator from a bichromatic pump,”  D. V. Strekalov, N. Yu, Phys. Rev. A 79, 041805 (2009).

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PhD Thesis

“Crystalline whispering gallery mode resonators for quantum and nonlinear optics”
I.S. Grudinin, Caltech, 2008.

Ivan Grudinin