2016年 第77回応用物理学会秋季学術講演会

講演情報

一般セッション(口頭講演)

4 JSAP-OSA Joint Symposia 2016 » 4.8 Strong Light Excitation Phenomena Applied to Materials and Bio Engneering

[13p-C301-1~12] 4.8 Strong Light Excitation Phenomena Applied to Materials and Bio Engneering

2016年9月13日(火) 13:45 〜 18:00 C301 (日航30階鶴)

坂倉 政明(京大)、寺川 光洋(慶大)

17:45 〜 18:00

[13p-C301-12] Observation of stress dynamics after fs laser irradiation inside diamond

Masaaki Sakakura1、Takuro Okada2、Vibhav Bharadwaj3,4、Belen Sotillo3,4、Shane Eaton3,4、Roberta Ramponi3,4、Toney Fernandez3,4、Ali Serpenguzel5、Ulas Gokay5、Yasuhiko Shimotsuma2、Kiyotaka Miura2 (1.Kyoto Univ. SACI、2.Kyoto Univ. Eng.、3.Politec. Milano、4.IFN-CNR、5.Koc Univ.)

キーワード:femtosecond laser processing, pump-probe, diamond

Diamond has attracted great interest as a platform for quantum information, because it has nitrogen vacancy (NV) centers, which can be exploited as quantum bits, since the electron spin at the NV center has a long coherence time and be controlled with light. Therefore, the development of fabrication technique of diamond for photonic application is an important task to realize integrated diamond-based quantum devices. One of the key components in diamond-based quantum devices is an optical waveguide, which can be written by fs laser direct writing. Previously, we found that a single-pulse irradiation with 100-300 fs laser pulses cannot induce any permanent modification inside diamond, but double-pulse irradiation with 200-400 fs laser pulses was effective to induce larger permanent modification. However, the difference in the dynamics after fs laser irradiation between single- and double-pulse irradiation has remained unclear. In this study, we observed stress dynamics using a time-resolved interferometer to investigate the difference between single- and double-pulse irradiation.