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Time-of-flight detection of terahertz phonon-polariton

Author

Listed:
  • Tianchuang Luo

    (Massachusetts Institute of Technology)

  • Batyr Ilyas

    (Massachusetts Institute of Technology)

  • A. von Hoegen

    (Massachusetts Institute of Technology)

  • Youjin Lee

    (Seoul National University)

  • Jaena Park

    (Seoul National University)

  • Je-Geun Park

    (Seoul National University)

  • Nuh Gedik

    (Massachusetts Institute of Technology)

Abstract

A polariton is a fundamental quasiparticle that arises from strong light-matter interaction and as such has attracted wide scientific and practical interest. When light is strongly coupled to the crystal lattice, it gives rise to phonon-polaritons (PPs), which have been proven useful in the dynamical manipulation of quantum materials and the advancement of terahertz technologies. Yet, current detection and characterization methods of polaritons are still limited. Traditional techniques such as Raman or transient grating either rely on fine-tuning of external parameters or complex phase extraction techniques. To overcome these inherent limitations, we propose and demonstrate a technique based on a time-of-flight measurement of PPs. We resonantly launch broadband PPs with intense terahertz fields and measure the time-of-flight of each spectral component with time-resolved second harmonic generation. The time-of-flight information, combined with the PP attenuation, enables us to resolve the real and imaginary parts of the PP dispersion relation. We demonstrate this technique in the van der Waals magnets NiI2 and MnPS3 and reveal a hidden magnon-phonon interaction. We believe that this approach will unlock new opportunities for studying polaritons across diverse material systems and enhance our understanding of strong light-matter interaction.

Suggested Citation

  • Tianchuang Luo & Batyr Ilyas & A. von Hoegen & Youjin Lee & Jaena Park & Je-Geun Park & Nuh Gedik, 2024. "Time-of-flight detection of terahertz phonon-polariton," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46515-1
    DOI: 10.1038/s41467-024-46515-1
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    References listed on IDEAS

    as
    1. Qian Song & Connor A. Occhialini & Emre Ergeçen & Batyr Ilyas & Danila Amoroso & Paolo Barone & Jesse Kapeghian & Kenji Watanabe & Takashi Taniguchi & Antia S. Botana & Silvia Picozzi & Nuh Gedik & Ri, 2022. "Evidence for a single-layer van der Waals multiferroic," Nature, Nature, vol. 602(7898), pages 601-605, February.
    2. A. von Hoegen & R. Mankowsky & M. Fechner & M. Först & A. Cavalleri, 2018. "Probing the interatomic potential of solids with strong-field nonlinear phononics," Nature, Nature, vol. 555(7694), pages 79-82, March.
    3. M. Hohenleutner & F. Langer & O. Schubert & M. Knorr & U. Huttner & S. W. Koch & M. Kira & R. Huber, 2015. "Real-time observation of interfering crystal electrons in high-harmonic generation," Nature, Nature, vol. 523(7562), pages 572-575, July.
    4. D. Ballarini & M. De Giorgi & E. Cancellieri & R. Houdré & E. Giacobino & R. Cingolani & A. Bramati & G. Gigli & D. Sanvitto, 2013. "All-optical polariton transistor," Nature Communications, Nature, vol. 4(1), pages 1-8, June.
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