Publications

For an up-to-date list of publications, see Google Scholar.

Books and book chapters

1.   Planar plasmonic structures and nonlinear metal-dielectric subwavelength waveguides

       A.R. Davoyan, I.V. Shadrivov, and Yu.S. Kivshar

       In “Modern Problems of Optics and Photonics”, eds. G. Kryuchkyan, G. Gurzadyan, and A. Papoyan, pp. 182-196, World Scientific, Singapore (2010).

2.   Active Guiding of Dirac Plasmons in Graphene 

       M. Yu. Morozov, A. R. Davoyan, I. M. Moiseenko, A. Satou, T. Otsuji, V. V. Popov

       In “Graphene-Based Terahertz Electronics and Plasmonics”, eds. Vladimir Mitin, Taiichi Otsuji, Victor Ryzhii, pp. 12, Jenny Stanford Publishing, New York (2020).

        https://doi.org/10.1201/9780429328398

3.   Plasmonic Terahertz Lasing in an Array of Graphene Nanocavities

       V. V. Popov, O. V. Polischuk, A. R. Davoyan, V. Ryzhii, T. Otsuji, M. S. Shur

       In “Graphene-Based Terahertz Electronics and Plasmonics”, eds. Vladimir Mitin, Taiichi Otsuji, Victor Ryzhii, pp. 12, Jenny Stanford Publishing, New York (2020).

        https://doi.org/10.1201/9780429328398

4.   Graphene Surface Emitting Terahertz Laser: Diffusion Pumping Concept

       A. R. Davoyan, M. Yu. Morozov, V. V. Popov, A. Satou, T. Otsuji

       In “Graphene-Based Terahertz Electronics and Plasmonics”, eds. Vladimir Mitin, Taiichi Otsuji, Victor Ryzhii, pp. 12, Jenny Stanford Publishing, New York (2020).

        https://doi.org/10.1201/9780429328398

Preprints & white papers

7.  Anomalous Reflection Under Ambient Sunlight: Accessing In-Plane Radiation Pressure for Solar Sailing.

      T. Joly-Jehenne,  A.R. Davoyan

      arXiv:2307.09750

6.  Exciton Assisted Deeply Subwavelength Nano-Photonics .

      H. Ling, A. Manna, J. Shen, H.-T. Tung, D. Sharp, J. Fröch, S. Dai, A. Majumdar, A.R. Davoyan

      arXiv:2302.06053

5.  Solar Sail Propulsion by 2050: An Enabling Capability for Heliophysics Missions.

      L. Johnson, N. Barnes, M. Ceriotti, T.Y. Chen, A. Davoyan, L. Friedman, D. Garber, R. Kezerashvili, K. Kobayashi, G. Matloff, C. McInnes, P. Mulligan, G. Swartzlander, S. G. Turyshev

      arXiv:2301.01297

 

4.  Non-Nuclear Exploration of the Solar System Study.

J. Brophy et al. 

Keck Space Institute Study Report (2022)

3.  A Mission to Nature’s Telescope for High-Resolution
Imaging of an Exoplanet
.

      L. D. Friedman, D. Garber, S.G. Turyshev, H. Helvajian, T. Heinshiemer, J. McVey, A.R. Davoyan

      arXiv:2107.11473

2.  Exploring the Outer Solar System with Solar Sailing Smallsats on Fast-Transit Trajectories and In-Flight Autonomous Assembly of Advanced Science Payloads.

S. G. Turyshev, H. Helvajian, L. D. Friedman, T. Heinsheimer, D. Garber, A. Davoyan, and V. T. Toth

        arXiv:2007.05623

Peer-reviewed journal publications

63.  One-way light flow by spatio-temporal modulation.

M.A.A. Abouelatta, M.A. Swillam, A.R. Davoyan, and A.M. Mahmoud

       Optics Express 31, 14278 (2023) 

62.  Atomic-Void van der Waals Channel Waveguides.

H. Ling, A. R. Davoyan

       Nano Letters 22, 6254 (2022) 

61.  Light control with atomically thin magnets.

H. Ling, A. R. Davoyan

       Nature Photonics 16, 259 (2022) 

60.  Framework for Expediting Discovery of Optimal Solutions with Blackbox Algorithms in Non-Topology Photonic Inverse Design.

J. Digani, P. W.C. Hon, A. R. Davoyan

        ACS Photonics 9, 432 (2022) 

57.  Light-Matter Coupling in Large Area Van der Waals Superlattices.

P. Kumar, J. Lynch, B. Song, H. Ling, F. Barrera, H. Zhang, S. B. Anantharaman, J. Digani, H. Zhu, T. H. Choudhury, C. McAleese, X. Wang, B. R. Conran, O. Whear, M. J. Motala, M. Snure, C. Muratore, J. M. Redwing, N. R. Glavin, E. A. Stach, A. R. Davoyan, D. Jariwala

        Nature Nanotechnology 17, 182 (2022)

56.  Spatiotemporal Imaging of Thickness-Induced Band Bending Junctions.

       J. Wong, A. R. Davoyan, B. Liao, A. Krayev, K. Jo, E. Rotenberg, A. Bostwick, C. Jozwiak, D. Jariwala, A. Zewail, H. A. Atwater

        Nano Letters  21, 5745 (2021).

55.  Photonic Materials for Interstellar Solar Sailing.

        A.R. Davoyan, J. Munday, N. Tabirian, G. Shwartzlander, L. Johnson

        Optica 8, 722 (2021).

54.  All van der Waals Integrated Nanophotonics with Bulk Transition Metal Dichalcogenides.

        H. Ling, R. Li, A.R. Davoyan

        ACS Photonics 8, 721 (2021).

53.  A perimeter control architecture for optical phased arrays and metasurfaces.

        A.R. Davoyan and H. Atwater

        Physical Review Applied  14, 024038 (2020).

51.  Hybrid Exciton-Plasmon-Polariton Modes in van der Waals Semiconductor Gratings.

H. Zhang, B. Abhiraman, Q. Zhang, J. Miao, K. Jo, S. Roccasecca, M. W. Knight, A. R. Davoyan, D. Jariwala

        Nature Communications 11, 3552 (2020).

50.  Direct Multi-Pixel Imaging and Spatially-Resolved Spectroscopy of a Potentially Habitable Exoplanet with the Solar Gravitational Lens.

        S. Turyshev, M. Shao, L. Friedman, V. Toth, L. Alkalai, J. Shen, H. Zhou, N. Arora, A.R. Davoyan, D.D. Garber, H. Helvajian, T. Heinsheimer, S.W. Janson, L. Johnson, J.R. Males, R. Nakagawa, S. Redfield, N. Strange, M.R. Swain, D. Van Buren.

        Astro2020: Decadal Survey on Astronomy and Astrophysics, science white papers, no. 23; Bulletin of the American Astronomical Society, Vol. 51, Issue 3, id. 23 (2019).

49.  Nonreciprocal emission in magnetized epsilon-near-zero metamaterials.

        A.R. Davoyan and N. Engheta

        ACS Photonics  6, 581 (2019).

48.  Mimicking surface polaritons for unpolarized light with high-permittivity materials

        G.T. Papadakis, A.R. Davoyan, P. Yeh, and H.A. Atwater

        Phys. Rev. Materials  3, 0152020 (2019).

47.  Nanoporous Gold as a Highly Selective and Active Carbon Dioxide Reduction Catalyst

        A.J. Welch, J.S. DuChene, G. Tagliabue, A.R. Davoyan, W.-H. Cheng, and H.A. Atwater

        ACS Applied Energy Materials  2, 164 (2018).

Prior to UCLA

46.  Quantum nonlinear light emission in metamaterials: broadband Purcell enhancement of parametric downconversion

        A.R. Davoyan and H.A. Atwater

        Optica 5, 608 (2018).

45.  Quantifying the role of surface plasmon excitation and hot carrier transport in plasmonic devices

        G. Tagliabue, A.S. Jermyn, R. Sundararaman, A.J. Welch, J.S. DuChene, R. Pala, A.R. Davoyan, P. Narang, and H.A. Atwater

        Nature Communications 9, 3394 (2018).

44.  Materials challenges for the Starshot lightsail

        H.A. Atwater, A.R. Davoyan, O. Ilic, D. Jariwala, M.C. Sherrott, C.M. Went, W.S. Whitney, and J. Wong

        Nature Materials 17, 861–867 (2018).

43.  Optical magnetism in planar metamaterial heterostructures

        G.T. Papadakis, D. Fleischman, A.R. Davoyan, P. Yeh, H.A. Atwater

         Nature Communications 9 (1), 296 (2018).

42.  Dynamically controlled Purcell enhancement of visible spontaneous emission in a gated plasmonic heterostructure

        Y.-J. Lu, R. Sokhoyan, W.-H. Cheng, G. Kafaie-Shirmanesh, A.R. Davoyan, R.A. Pala, K. Thyagarajan, and H.A Atwater

        Nature Communications 8 (1), 1631 (2017).

41.  Van der Waals materials for atomically-thin photovoltaics: Promise and outlook

        D. Jariwala, A.R. Davoyan, J. Wong, and H.A. Atwater

        ACS Photonics 4 , 2962-2970 (2017).

40.  High Photovoltaic Quantum Efficiency in Ultrathin van der Waals Heterostructures

        J. Wong, D. Jariwala, G. Tagliabue, K. Tat, A.R. Davoyan, M. Sherrott, and H.A. Atwater

        ACS Nano 11, 7230–7240 (2017).

39.  Gate-Variable Mid-Infrared Optical Transitions in a BiSbTe3 Electronic Topological Insulator

        W.S. Whitney, V.W. Brar, Y. Ou, A.R. Davoyan, K. He, Q.K. Xue, H.A. Atwater

        Nano Letters 17, 255 (2017).

38.  Near-Unity Absorption in Van der Waals Semiconductors for Ultrathin Optoelectronics

        D. Jariwala, A.R. Davoyan, G. Tagliabue, M.C. Sherrott, J. Wong, H.A. Atwater

        Nano Letters, 16, 5482–5487 (2016).

37.  Salient Features of Deeply Subwavelength Guiding of Terahertz Radiation in Graphene-Coated Fibers

        A.R. Davoyan and N. Engheta

        ACS Photonics 3, 737-742 (2016).

36.  All-passive nonreciprocal metastructure

        A.M. Mahmoud, A.R. Davoyan, N. Engheta

         Nature Communications 6, 8359 (2015).

35.  One-way surface states due to nonreciprocal light-line crossing

        F. Abbasi, A.R Davoyan, N. Engheta

         New Journal of Physics 17, 063014 (2015).

34.  NEMS With Broken T Symmetry: Graphene Based Unidirectional Acoustic Transmission Lines

        M.B. Zanjani, A.R. Davoyan, N. Engheta, J.R. Lukes

        Scientific Reports 5, 9926 (2015).

33.  Active guiding of Dirac plasmons in graphene

        M.Y. Morozov, A.R. Davoyan, I.M. Moiseenko, A. Satou, T. Otsuji, V.V. Popov

         Applied Physics Letters 106, 061105 (2015).

32.  Extreme and quantized magneto-optics with graphene meta-atoms and metasurfaces

        Y. Hadad, A.R. Davoyan, N. Engheta, and B. Steinberg

        ACS Photonics 1, 1068-1073 (2014).

31.  Electrically controlled one-way photon flow in plasmonic nanostructures

        A.R. Davoyan and N. Engheta

         Nature Communications 5, 5250 (2014).

30.  A long-range polarization-controlled optical tractor beam

        V.G. Shvedov, A.R. Davoyan, C. Gnatovsky, N. Engheta, and W. Krolikowski

        Nature Photonics 8, 846-850 (2014).

29.  One-Way Phonon Isolation in Acoustic Waveguides

        M. Zanjani, A.R. Davoyan, A.M. Mahmoud, J. Lukes, and N. Engheta

         Appl. Phys. Lett. 104, 081905 (2014).

28.  Hotspots from nonreciprocal surface waves

        U. Chettiar, A.R. Davoyan, and N. Engheta

         Optics Letters 39, 1760 (2014).

27.  Nonreciprocal Optics within a Wavelength Fraction

        A.R. Davoyan and N. Engheta

        Optics and Photonics News 24, 36-36 (2013).

26.  Nanometer near-field localization and enhancement in a split two-dimensional plasmonic system at terahertz frequencies

        A.R. Davoyan and V.V. Popov

        Optics Communications 315, 352 (2014).

25.  Graphene surface-emitting terahertz laser: Diffusion pumping concept

         A.R. Davoyan, M. Y. Morozov, A. Satou, V.V. Popov, and T. Otsuji

         Appl. Phys. Lett. 103, 251102 (2013).

23.  Nanoscale plasmonic circulator

        A.R. Davoyan and N. Engheta

        New Journal of Physics 15, 083054 (2013).

22.  Nonreciprocal rotating power flow within plasmonic nanostructures

        A.R. Davoyan and N. Engheta

        Phys. Rev. Lett. 111, 047401 (2013).

21.  Self-similar parabolic plasmonic beams

        A.R. Davoyan, S.K. Turitsyn, and Y.S. Kivshar

        Opt. Lett. 38, 428 (2013).

20.  Optical isolation with epsilon-near-zero metamaterials

        A.R. Davoyan, A.M. Mahmoud, and N. Engheta

        Opt. Express 21, 3279 (2013).

19.  Plasmonic terahertz lasing in an array of graphene nanocavities

        V.V. Popov, O.V. Polischuk, A.R. Davoyan, V. Ryzhii, T. Otsuji, and M.S. Shur

        Phys. Rev. B 86, 195437 (2012).

18.  Tailoring Terahertz Near-Field Enhancement via Two-Dimensional Plasmons

        A.R. Davoyan, V.V. Popov, and S.A. Nikitov

        Phys. Rev. Lett. 108, 127401 (2012).

17.  Multifrequency tapered plasmonic nanoantennas

        I.S. Maksymov, A.R. Davoyan, A.E. Miroshnichenko, C. Simovski, P. Belov, and Y.S. Kivshar

        Opt. Commun. 285, 821-824 (2012).

16.  An arrayed nanoantenna for broadband light emission and detection

        A.E. Miroshnichenko, I.S. Maksymov, A.R. Davoyan, C. Simovski, P. Belov, and Y.S. Kivshar

        Phys. Stat. Solidi RRL, 5, 347-349 (2011).

15.  Enhanced emission and light control with tapered plasmonic nanoantennas

        I.S. Maksymov, A.R. Davoyan, and Y.S. Kivshar

         Appl. Phys. Lett. 99, 083304 (2011).

14.  Mode transformation in waveguiding plasmonic structures

         A.R. Davoyan, W. Liu, A.E. Miroshnichenko, I.V. Shadrivov, Y.S. Kivshar, and S.I. Bozhevolnyi

         Photon. and Nanostruct. 9, 207-212 (2011).

13.  Plasmonic couplers with metal nonlinearities

        A.R. Davoyan

         Phys. Lett. A 375, 1615-1618 (2011).

12.  Symmetry breaking in plasmonic waveguides with metal nonlinearities

        A.R. Davoyan, I.V. Shadrivov, and Y.S. Kivshar

        Opt. Lett. 36, 930-932 (2011).

11.  Nonlinear nanofocusing in tapered plasmonic waveguides

        A.R. Davoyan, I.V. Shadrivov, A.A. Zharov, D.K. Gramotnev, and Yu.S. Kivshar

         Phys. Rev. Lett. 105, 116804 (1-4) (2010).

10.  Optimal tapers for compensating losses in plasmonic waveguides

        A.R. Davoyan, I.V. Shadrivov, Y.S. Kivshar, and D.K. Gramotnev

         Phys. Status Solidi RRL 4, 277279 (2010).

9.  Backward and forward modes guided by metal-dielectric-metal plasmonic waveguides

    A.R. Davoyan, I.V. Shadrivov, S.I. Bozhevolnyi, and Y.S. Kivshar

    J. of Nanophotonics 4, 043509-10 (2010).

8.  Propagation of Compound Signals via a Nonlinear Magnetostatic Wave Transmission Line

      S.V. Grishin, A.R. Davoyan, and Y.P. Sharaevsky

      J. Commun.Techn. and Electron. 55, 88-97 (2010).

7.  Self-focusing and spatial plasmon-polariton solitons

      A.R. Davoyan, I.V. Shadrivov, and Y.S. Kivshar

      Opt. Express 17, 21732-21737 (2009).

6.  Quadratic phase matching in nonlinear plasmonic nanoscale waveguides

      A.R. Davoyan, I.V. Shadrivov, and Y.S. Kivshar

      Opt. Express 17, 20063-20068 (2009).

5.  Beam oscillations and curling in chirped periodic structures with metamaterials

      A.R. Davoyan, I.V. Shadrivov, A.A. Surkhorukov, and Y.S. Kivshar

      Phys. Rev. A 79, 013820-8 (2009).

4.  Plasmonic Bloch oscillations in chirped metal-dielectric structures

     A.R. Davoyan, I.V. Shadrivov, A.A. Surkhorukov, and Y.S. Kivshar

     Appl. Phys. Lett. 94, 161105-3 (2009).

3.  Nonlinear plasmonic slot waveguides

     A.R. Davoyan, I.V. Shadrivov, and Y.S. Kivshar

     Opt. Express 16, 21209-21214 (2008).

2.  Bloch oscillations in chirped layered structures with metamaterials 

     A.R. Davoyan, I.V. Shadrivov, A.A. Surkhorukov, and Y.S. Kivshar

     Opt. Express 16, 3299-3304 (2008).

1.  Nonlinear model of interaction of various power level signals in resonance transmission line on magnetostatic waves

     S.V. Grishin, A.R. Davoyan, and Y.P. Sharaevsky

     Nonlinear Appl. Dynamics 13, 123-134 (2005) [in Russian].