Six résultats de recherche seront présentés à CLEO:2022.

  1. T. Kodama, R. Sugano, J. Hofs, M. Ohtsuka, M. Seki, N. Yokoyama, M. Okano, et T. Tanabe, "Multi-wavelength reconstruction in a compact (< mm) à haute résolution (< 0,1 nm) à cristaux photoniques aléatoires," CLEO:2022, SM3K.6, San Jose (hybride), 15-20 mai (2022).
  2. S. Fujii, K. Wada, S. Kogure, H. Kumazaki et T. Tanabe, "Active Thermal Tuning of a Soliton Frequency Comb in a Crystalline Optical". Microrésonateur", CLEO:2022, JW3B.87, San Jose (hybride), 15-20 mai (2022).
  3. S. Sugawara, S. Fujii, S. Sota et T. Tanabe, "Stability and mutual coherence measurement of Raman microcomb in a silica WGM". microrésonateur", CLEO:2022, FTu4J.3, San Jose (hybride), 15-20 mai (2022).
  4. A. Nakashima, S. Fujii, R. Imamura, K. Nagashima et T. Tanabe, " Deterministic Generation of Perfect Soliton Crystal Assisted by Saturable Absorption," CLEO:2022, SW5H.4, San Jose (hybride), 15-20 mai (2022).
  5. S. Sota, K. Handa, T. Tanabe, Y. Uzawa, K. Furusawa et N. Sekine, "Frequency comb generation in a silicon nitride microring resonator". fabricated by using hot-wire CVD method," CLEO:2022, STh2F.5, San Jose (Hybrid), May. 15-20 (2022).
  6. S. Kogure, T. Ohtsuka, S. Fujii, H. Kumazaki, S Tanaka, Y. Hashimoto, Y. Kobayashi, T. Araki, K. Furusawa, N. Sekine et T. Tanabe, "FEC-free optical data transmission with a chip-integrated microresonator frequency comb source", CLEO:2022, STh4K.2, San José (hybride), 15-20 mai (2022).