Time-resolved observation of coherent excitonic nonlinear response with a table-top narrowband THz pulse wave

K. Uchida; H. Hirori; T. Aoki; C. Wolpert; T. Tamaya; K. Tanaka; T. Mochizuki; C. Kim; M. Yoshita; H. Akiyama; L. N. Pfeiffer; K. W. West

doi:10.1063/1.4936753

Time-resolved observation of coherent excitonic nonlinear response with a table-top narrowband THz pulse wave

K. Uchida, H. Hirori, T. Aoki, C. Wolpert, T. Tamaya, K. Tanaka, T. Mochizuki, C. Kim, M. Yoshita, H. Akiyama, L. N. Pfeiffer, K. W. West

先進理工学部

研究成果: Article › 査読

21 被引用数 (Scopus)

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By combining a tilted-pulse-intensity-front scheme using a LiNbO₃ crystal and a chirped-pulse-beating method, we generated a narrowband intense terahertz (THz) pulse, which had a maximum electric field of more than 10 kV/cm at around 2 THz, a bandwidth of ∼50 GHz, and frequency tunability from 0.5 to 2 THz. By performing THz-pump and near-infrared-probe experiments on GaAs quantum wells, we observed that the resonant excitation of the intraexcitonic 1s-2p transition induces a clear and large Autler-Townes splitting. Our time-resolved measurements show that the splitting energy observed in the rising edge region of electric field is larger than in the constant region. This result implies that the splitting energy depends on the time-averaged THz field over the excitonic dephasing time rather than that at the instant of the exciton creation by a probe pulse.

本文言語	English
論文番号	221106
ジャーナル	Applied Physics Letters
巻	107
号	22
DOI	https://doi.org/10.1063/1.4936753
出版ステータス	Published - 2015 11月 30

ASJC Scopus subject areas

物理学および天文学（その他）

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10.1063/1.4936753

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title = "Time-resolved observation of coherent excitonic nonlinear response with a table-top narrowband THz pulse wave",

abstract = "By combining a tilted-pulse-intensity-front scheme using a LiNbO3 crystal and a chirped-pulse-beating method, we generated a narrowband intense terahertz (THz) pulse, which had a maximum electric field of more than 10 kV/cm at around 2 THz, a bandwidth of ∼50 GHz, and frequency tunability from 0.5 to 2 THz. By performing THz-pump and near-infrared-probe experiments on GaAs quantum wells, we observed that the resonant excitation of the intraexcitonic 1s-2p transition induces a clear and large Autler-Townes splitting. Our time-resolved measurements show that the splitting energy observed in the rising edge region of electric field is larger than in the constant region. This result implies that the splitting energy depends on the time-averaged THz field over the excitonic dephasing time rather than that at the instant of the exciton creation by a probe pulse.",

author = "K. Uchida and H. Hirori and T. Aoki and C. Wolpert and T. Tamaya and K. Tanaka and T. Mochizuki and C. Kim and M. Yoshita and H. Akiyama and Pfeiffer, {L. N.} and West, {K. W.}",

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day = "30",

doi = "10.1063/1.4936753",

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T1 - Time-resolved observation of coherent excitonic nonlinear response with a table-top narrowband THz pulse wave

AU - Uchida, K.

AU - Hirori, H.

AU - Aoki, T.

AU - Wolpert, C.

AU - Tamaya, T.

AU - Tanaka, K.

AU - Mochizuki, T.

AU - Kim, C.

AU - Yoshita, M.

AU - Akiyama, H.

AU - Pfeiffer, L. N.

AU - West, K. W.

PY - 2015/11/30

Y1 - 2015/11/30

N2 - By combining a tilted-pulse-intensity-front scheme using a LiNbO3 crystal and a chirped-pulse-beating method, we generated a narrowband intense terahertz (THz) pulse, which had a maximum electric field of more than 10 kV/cm at around 2 THz, a bandwidth of ∼50 GHz, and frequency tunability from 0.5 to 2 THz. By performing THz-pump and near-infrared-probe experiments on GaAs quantum wells, we observed that the resonant excitation of the intraexcitonic 1s-2p transition induces a clear and large Autler-Townes splitting. Our time-resolved measurements show that the splitting energy observed in the rising edge region of electric field is larger than in the constant region. This result implies that the splitting energy depends on the time-averaged THz field over the excitonic dephasing time rather than that at the instant of the exciton creation by a probe pulse.

AB - By combining a tilted-pulse-intensity-front scheme using a LiNbO3 crystal and a chirped-pulse-beating method, we generated a narrowband intense terahertz (THz) pulse, which had a maximum electric field of more than 10 kV/cm at around 2 THz, a bandwidth of ∼50 GHz, and frequency tunability from 0.5 to 2 THz. By performing THz-pump and near-infrared-probe experiments on GaAs quantum wells, we observed that the resonant excitation of the intraexcitonic 1s-2p transition induces a clear and large Autler-Townes splitting. Our time-resolved measurements show that the splitting energy observed in the rising edge region of electric field is larger than in the constant region. This result implies that the splitting energy depends on the time-averaged THz field over the excitonic dephasing time rather than that at the instant of the exciton creation by a probe pulse.

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Time-resolved observation of coherent excitonic nonlinear response with a table-top narrowband THz pulse wave

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