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Andriy Danylov


Andriy Danylov is an Assistant Teaching Professor in the Physics Department at UMass Lowell.
Andriy DanylovAssistant Teaching Professor

Research Interests

THz Quantum Cascade Laser (QCL) Source Receiver Technologies

Education

  • Ph D: Physics, (2010), University of Massachusetts Lowell - Lowell, MA
    Dissertation/Thesis Title: Frequency stabilization, tuning, and spatial mode control of terahertz quantum cascade lasers for coherent transceiver applications.
  • MS: Physics, (2009), University of Massachusetts Lowell - Lowell, MA
  • MS: Physics with honors, (1996), Kharkov State University - Kharkov, Ukraine
    Dissertation/Thesis Title: Research of Optical and Laser Properties of Ticor (Al2O3:Ti) Single Crystals Grown in Carbonic Medium.

Selected Awards and Honors

  • 2014 Faculty Award for Teaching Excellence (2014), Teaching - University of Massachusetts Lowell
  • Outstanding Graduate Student (2008), Scholarship/Research - UMass, Lowell
  • Outstanding First-Year Graduate Student (2005), Scholarship/Research - UMass, Lowell

Selected Publications

  • Danylov, A. (2015). Phase locking of 2.324 and 2.959 THz quantum cascade lasers using a Schottky diode harmonic mixer. Optics Letters, 40(21).
  • Danylov, A.A., Waldman, J., Light, A.R., Goyette, T.M., Giles, R.H., Qian, X., Chandrayan, N., Goodhue, W.D., Nixon, W.E. (2012). Long-term frequency and amplitude stability of a solid-nitrogen-cooled, continuous wave THz quantum cascade laser (pp. 82610D–82610D).
  • Qian, X., Chandrayan, N., Vangala, S., Goodhue, W.D., Danylov, A.A., Waldman, J., Baird, C., Giles, R.H., Nixon, W.E. (2012). One-half milliwatt 2.31 THz continuous-wave QCL operating at 77K (pp. 82610K–82610K).
  • Danylov, A.A., Goyette, T.M., Waldman, J., Coulombe, M.J., Gatesman, A.J., Giles, R.H., Qian, X., Chandrayan, N., Vangala, S., Termkoa, K., others, . (2010). Coherent imaging at 2.4 THz with a CW quantum cascade laser transmitter (pp. 760105–760105).
  • Danylov, A.A., Waldman, J. (2010). Frequency stabilization, tuning, and spatial mode control of terahertz quantum cascade lasers for coherent transceiver applications by Andriy Danylov.
  • Waldman, J., Danylov, A.A., Goyette, T.M., Coulombe, M.J., Giles, R.H., Gatesman, A.J., Goodhue, W.D., Li, J., Linden, K.J., Nixon, W.E. (2009). Prospects for quantum cascade lasers as transmitters and local oscillators in coherent terahertz transmitter/receiver systems. Proceedings of SPIE, (1) 72150.
  • Danylov, A.A., Waldman, J., Goyette, T.M., Gatesman, A.J., Giles, R.H., Linden, K.J., Neal, W.R., Nixon, W.E., Wanke, M.C., Reno, J.L. (2007). Transformation of the multimode terahertz quantum cascade laser beam into a Gaussian, using a hollow dielectric waveguide. Applied Optics, 46(22) 5051.
  • Gatesman, A.J., Danylov, A.A., Goyette, T.M., Dickinson, J.C., Giles, R.H., Goodhue, W., Waldman, J., Nixon, W.E., Hoen, W. (2006). Terahertz behavior of optical components and common materials. Proceedings of SPIE, (1) 62120.
  • Linden, K.J., Neal, W.R., Waldman, J., Gatesman, A.J., Danylov, A.A. (2005). Terahertz laser based standoff imaging system. 34th Applied Imagery & Pattern Recognition Workshop (AIPR'05), 14.