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Crossing the threshold of ultrafast laser writing in bulk silicon

Author

Listed:
  • Margaux Chanal

    (Aix-Marseille University)

  • Vladimir Yu. Fedorov

    (Texas A&M University at Qatar
    P. N. Lebedev Physical Institute of the Russian Academy of Sciences)

  • Maxime Chambonneau

    (Aix-Marseille University)

  • Raphaël Clady

    (Aix-Marseille University)

  • Stelios Tzortzakis

    (Texas A&M University at Qatar
    Foundation for Research and Technology—Hellas (FORTH)
    University of Crete)

  • David Grojo

    (Aix-Marseille University)

Abstract

An important challenge in the field of three-dimensional ultrafast laser processing is to achieve permanent modifications in the bulk of silicon and narrow-gap materials. Recent attempts by increasing the energy of infrared ultrashort pulses have simply failed. Here, we establish that it is because focusing with a maximum numerical aperture of about 1.5 with conventional schemes does not allow overcoming strong nonlinear and plasma effects in the pre-focal region. We circumvent this limitation by exploiting solid-immersion focusing, in analogy to techniques applied in advanced microscopy and lithography. By creating the conditions for an interaction with an extreme numerical aperture near 3 in a perfect spherical sample, repeatable femtosecond optical breakdown and controllable refractive index modifications are achieved inside silicon. This opens the door to the direct writing of three-dimensional monolithic devices for silicon photonics. It also provides perspectives for new strong-field physics and warm-dense-matter plasma experiments.

Suggested Citation

  • Margaux Chanal & Vladimir Yu. Fedorov & Maxime Chambonneau & Raphaël Clady & Stelios Tzortzakis & David Grojo, 2017. "Crossing the threshold of ultrafast laser writing in bulk silicon," Nature Communications, Nature, vol. 8(1), pages 1-6, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00907-8
    DOI: 10.1038/s41467-017-00907-8
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