Faculty of Science

Takuya Hirano

  (平野 琢也)

Profile Information

Affiliation
Professor, Faculty of Science, Department of Physics, Gakushuin University
Degree
(BLANK)(The University of Tokyo)

Contact information
takuya.hiranogakushuin.ac.jp
J-GLOBAL ID
200901062696389245
researchmap Member ID
1000246127

External link

Papers

 100
  • Junnosuke Takai, Kosuke Shibata, Naota Sekiguchi, Takuya Hirano
    Physical Review A, May 11, 2023  
  • Jorge Amari, Junnosuke Takai, Takuya Hirano
    Optics Continuum, Apr 15, 2023  
  • Aki Torii, Kosuke Shibata, Yujiro Eto, Takuya Hirano
    Optics Express, 30(15) 26120-26120, Jul 18, 2022  Peer-reviewed
    We report on the waveguide-based generation of pulsed squeezed light at 795 nm, suitable for quantum enhanced measurements with rubidium atoms. Pulsed ultraviolet second harmonic light with a power of more than 400 mW is produced using a periodically poled LiNbO3 (PPLN) waveguide and is injected into another PPLN waveguide to generate quadrature squeezing. We find that the phase of the second harmonic pulse is shifted within a pulse, and we attribute the shift to heating due to blue-light induced infrared absorption (BLIIRA) from a comparison between the experiment and a numerical simulation. A squeezing level of −1.5(1) dB is observed in homodyne detection when we apply a linear phase shift to the local oscillator. The experiment and simulation imply that the squeezing level can be further improved by reducing BLIIRA.
  • Naota Sekiguchi, Kosuke Shibata, Aki Torii, Hiroyuki Toda, Ryohei Kuramoto, Daiki Fukuda, Takuya Hirano
    Physical Review A, 104(4), Oct 28, 2021  Peer-reviewed
  • Yujiro Eto, Takuya Hirano
    Japanese Journal of Applied Physics, 60(5), May, 2021  Peer-reviewed
    Second-harmonic generation (SHG) using periodically poled material in the high-conversion regime is investigated experimentally and theoretically. In the experiment, we use nanosecond pulses and periodically poled MgO:LiNbO3 waveguides with two lengths, 8.3 and 3.6 mm. In both waveguides, the conversion efficiency reaches 80% with increasing pump power and then decreases. The reduction in efficiency is more prominent for the long waveguide. For a peak power of the fundamental wave exceeding 140 W, stronger SHG is achieved by using the short waveguide. To understand these phenomena, we numerically investigate the effect of the cascaded nonlinear phase shift caused by the quasi-phase-matched SHG. The nonlinear phase shift induces an energy backflow to the fundamental wave even when effective phase matching is satisfied, and it greatly reduces the conversion efficiency, at the same level of power as the experiment.

Misc.

 262
  • Nabeta Keita, Okada Ryotaro, Torii Aki, Sadgrove Mark, Shibayama Hitoshi, Eto Yujiro, Hirano Takuya
    Meeting Abstracts of the Physical Society of Japan, 71 511-511, 2016  
    <p>我々は以前からスピン2ボース・アインシュタイン凝縮体のスピン制御技術を利用して、ラムゼイ干渉によりラーモア歳差運動の観測をしてきた。これまでは、初期状態が磁気副準位m_F_=2の状態で実験を行ってきたが、初期状態を適切に選ぶことで干渉計の感度を向上させることが予測されている。本発表ではm_F_=0を初期状態にした時のラジオ波によるスピンの回転とラムゼイ干渉について報告する。</p>
  • Eto Yujiro, Takahashi Masahiro, Kunimi Masaya, Saito Hiroki, Hirano Takuya
    Meeting Abstracts of the Physical Society of Japan, 71 505-505, 2016  
    <p>多成分流体の空間的な構造形成は、非平衡過程や非線型現象を理解する上で重要な効果である。我々は、2成分ボース・アインシュタイン凝縮体の混和性を制御することにより、不安定な空間構造を持つ混ざり合う性質の2成分凝縮体を生成し、パターン形成ダイナミクスを観測することに成功した。発表では、混和性制御の方法や実験結果の詳細について紹介する。</p>
  • Matsubara T, Ono M, Ichikawa T, Hirano T, Kasai K, Matsumoto R, Tsurumaru T
    Meeting Abstracts of the Physical Society of Japan, 71 746-746, 2016  
  • Okada R, Nabeta K, Torii A, Takahashi M, Eto Y, Kunimi M, Saito H, Hirano T
    Meeting Abstracts of the Physical Society of Japan, 71 632-632, 2016  
  • Eto Y, Takahashi M, Hirano T, Kunimi M, Saito H
    Meeting Abstracts of the Physical Society of Japan, 71 1680-1681, 2016  

Research Projects

 30

Industrial Property Rights

 19