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Plasmonic gain in current biased tilted Dirac nodes

Author

Listed:
  • Sang Hyun Park

    (University of Minnesota)

  • Michael Sammon

    (University of Minnesota)

  • Eugene Mele

    (University of Pennsylvania)

  • Tony Low

    (University of Minnesota)

Abstract

Surface plasmons, which allow tight confinement of light, suffer from high intrinsic electronic losses. It has been shown that stimulated emission from excited electrons can transfer energy to plasmons and compensate for the high intrinsic losses. To-date, these realizations have relied on introducing an external gain media coupled to the surface plasmon. Here, we propose that plasmons in two-dimensional materials with closely located electron and hole Fermi pockets can be amplified, when an electrical current bias is applied along the displaced electron-hole pockets, without the need for an external gain media. As a prototypical example, we consider WTe2 from the family of 1T $${}^{{\prime} }$$ ′ -MX2 materials, whose electronic structure can be described within a type-II tilted massive Dirac model. We find that the nonlocal plasmonic response experiences prominent gain for experimentally accessible currents on the order of mAμm−1. Furthermore, the group velocity of the plasmon found from the isofrequency curves imply that the amplified plasmons are highly collimated along a direction perpendicular to the Dirac node tilt when the electrical current is applied along it.

Suggested Citation

  • Sang Hyun Park & Michael Sammon & Eugene Mele & Tony Low, 2022. "Plasmonic gain in current biased tilted Dirac nodes," Nature Communications, Nature, vol. 13(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-35139-y
    DOI: 10.1038/s41467-022-35139-y
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    as
    1. Dafei Jin & Ling Lu & Zhong Wang & Chen Fang & John D. Joannopoulos & Marin Soljačić & Liang Fu & Nicholas X. Fang, 2016. "Topological magnetoplasmon," Nature Communications, Nature, vol. 7(1), pages 1-10, December.
    2. Wenyu Zhao & Sihan Zhao & Hongyuan Li & Sheng Wang & Shaoxin Wang & M. Iqbal Bakti Utama & Salman Kahn & Yue Jiang & Xiao Xiao & SeokJae Yoo & Kenji Watanabe & Takashi Taniguchi & Alex Zettl & Feng Wa, 2021. "Efficient Fizeau drag from Dirac electrons in monolayer graphene," Nature, Nature, vol. 594(7864), pages 517-521, June.
    3. G. X. Ni & A. S. McLeod & Z. Sun & L. Wang & L. Xiong & K. W. Post & S. S. Sunku & B.-Y. Jiang & J. Hone & C. R. Dean & M. M. Fogler & D. N. Basov, 2018. "Fundamental limits to graphene plasmonics," Nature, Nature, vol. 557(7706), pages 530-533, May.
    4. Z. Fei & A. S. Rodin & G. O. Andreev & W. Bao & A. S. McLeod & M. Wagner & L. M. Zhang & Z. Zhao & M. Thiemens & G. Dominguez & M. M. Fogler & A. H. Castro Neto & C. N. Lau & F. Keilmann & D. N. Basov, 2012. "Gate-tuning of graphene plasmons revealed by infrared nano-imaging," Nature, Nature, vol. 487(7405), pages 82-85, July.
    5. Shumin Xiao & Vladimir P. Drachev & Alexander V. Kildishev & Xingjie Ni & Uday K. Chettiar & Hsiao-Kuan Yuan & Vladimir M. Shalaev, 2010. "Loss-free and active optical negative-index metamaterials," Nature, Nature, vol. 466(7307), pages 735-738, August.
    6. Rupert F. Oulton & Volker J. Sorger & Thomas Zentgraf & Ren-Min Ma & Christopher Gladden & Lun Dai & Guy Bartal & Xiang Zhang, 2009. "Plasmon lasers at deep subwavelength scale," Nature, Nature, vol. 461(7264), pages 629-632, October.
    7. Jianing Chen & Michela Badioli & Pablo Alonso-González & Sukosin Thongrattanasiri & Florian Huth & Johann Osmond & Marko Spasenović & Alba Centeno & Amaia Pesquera & Philippe Godignon & Amaia Zurutuza, 2012. "Optical nano-imaging of gate-tunable graphene plasmons," Nature, Nature, vol. 487(7405), pages 77-81, July.
    8. Ming Liu & Xiaobo Yin & Erick Ulin-Avila & Baisong Geng & Thomas Zentgraf & Long Ju & Feng Wang & Xiang Zhang, 2011. "A graphene-based broadband optical modulator," Nature, Nature, vol. 474(7349), pages 64-67, June.
    9. M. A. Noginov & G. Zhu & A. M. Belgrave & R. Bakker & V. M. Shalaev & E. E. Narimanov & S. Stout & E. Herz & T. Suteewong & U. Wiesner, 2009. "Demonstration of a spaser-based nanolaser," Nature, Nature, vol. 460(7259), pages 1110-1112, August.
    10. Alexey A. Soluyanov & Dominik Gresch & Zhijun Wang & QuanSheng Wu & Matthias Troyer & Xi Dai & B. Andrei Bernevig, 2015. "Type-II Weyl semimetals," Nature, Nature, vol. 527(7579), pages 495-498, November.
    11. Y. Dong & L. Xiong & I. Y. Phinney & Z. Sun & R. Jing & A. S. McLeod & S. Zhang & S. Liu & F. L. Ruta & H. Gao & Z. Dong & R. Pan & J. H. Edgar & P. Jarillo-Herrero & L. S. Levitov & A. J. Millis & M., 2021. "Fizeau drag in graphene plasmonics," Nature, Nature, vol. 594(7864), pages 513-516, June.
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