Femtosecond carrier dynamics in an asymmetrically excited GaAs photoconductive switch

Cummings, M. D.; Holzman, Jonathan F.; Elezzabi, A. Y.

doi:10.1063/1.1377041

Cited by 17 publications

(14 citation statements)

References 20 publications

(32 reference statements)

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“…The 2.1 ps relaxation time of this mode depends on the momentum and phonon dephasing via anharmonic interactions. This value is close to the 1.5 ps measured in reflectivity measurements of a GaAs photoconductive emitter, 5 but is smaller than the 5 ps reported for GaAs p-i-n diodes. 9 In explanation, the maximum carrier concentration in our measurement ͑ϳ3 ϫ 10 18 cm −3 ͒ is close to that of Cummings et al 6 ͑5.6ϫ 10 18 cm −3 ͒, but much larger than that of Leitenstorfer et al 9 ͑5 ϫ 10 14 cm −3 ͒, suggesting that the relaxation time of the photogenerated carriers is carrier concentration dependent.…”

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confidence: 78%

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Terahertz generation from coherent optical phonons in a biased GaAs photoconductive emitter

et al. 2004

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Terahertz radiation, generated from a biased and asymmetrically excited low-temperature-grown GaAs photoconductive emitter, has been characterized with a 20-m-thick ZnTe crystal using free-space electrooptic sampling. Pronounced coherent emission, originating from longitudinal optical phonon oscillations, has been observed, with a characteristic frequency of 8.7 THz and a decay time of 2.1 ps. In the frequency domain, the sharp spectral features from phonon oscillations superimpose on an ultrabroad (over 20 THz) response from the initial transient. Furthermore, a broad feature around 16 THz is observed, and interpreted as originating from the coherent plasmon-phonon coupled modes.

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confidence: 78%

“…The generation and detection of coherent optical phonons in semiconductors has been studied previously using both optical transient reflectivity measurements [1][2][3][4][5][6] and terahertz (THz) emission spectroscopy. [7][8][9][10] In a polar material, such as GaAs, the electric fields interact with both electrons and optical phonons.…”

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confidence: 99%

Terahertz generation from coherent optical phonons in a biased GaAs photoconductive emitter

et al. 2004

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“…The reason for the electric pulse with fast rise time easily generated from narrow gap PCSS is the short time needed to transit the electrodes for carriers. Owing to the absorption of light for GaAs PCSS in fs level [15], the ultra fast electric pulse is easily obtained from GaAs PCSS triggered by shorter laser pulse.…”

Section: Uwb Radiation Experimental Results and Discussionmentioning

confidence: 99%

Investigation of ultra‐wideband electromagnetic radiation based on SI‐GaAs photoconductive switches

Shi

Jia

2012

Micro & Optical Tech Letters

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A new ultra‐wideband electromagnetic pulse generating based on the photoconductive semiconductor switches (PCSS) is presented. Semi‐insulated Gallium Arsenide is used to develop the PCSS for an ultrashort electromagnetic pulse source. The construction and the work principle of PCSS are illustrated in this paper. The experimental results of ultra‐wide‐band radiation with DC biased GaAs photoconductive semiconductor switch triggered by nanosecond (ns), picosecond (ps), femtosecond (fs) laser pulse, are reported respectively. The radiations of the PCSS triggered by the ns laser pulse, the ps laser pulse and fs laser pulse series illustrate that the electromagnetic pulses would have high repetition of more than 80 MHz and frequency bandwidth of DC‐7.6 GHz. The radiation characteristic of the ultrafast electrical pulse generated by PCSS is analyzed. © 2012 Wiley Periodicals, Inc. Microwave Opt Technol Lett 54:900–904, 2012;, 2012; View this article online at wileyonlinelibrary.com. DOI 10.1002/mop.26683

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“…1). In fact, the ballistic regime for plasma wave propagation has been examined in a bulk GaAs, 2,7 and in metal surfaces 8 after the excitation of electron-hole plasma by femtosecond laser pulses, in which reduction of the electron-phonon scattering was significantly suggested. In a polar semiconductor, such as GaAs and InP, Fröhlich-type carrier-LO phonon scattering plays a major role at room temperature.…”

Section: Introductionmentioning

confidence: 99%

“…[13][14][15] One can enhance the amplitude of a phonon mode by applying in-phase pulses, or suppress it by applying out-of-phase pulses, both of which are observed in real time-domain. Recently, it has been theoretically pointed out that coherent control of relaxation of carrier plasma is possible by the irradiation of THz-rate trains of laser pulses with below-gap excitation condition, 16,17 while most of the pump-probe experiments and time-domain simulations have been made with above-gap excitation in GaAs, 7,[18][19][20][21][22] where the pump-pulse generates substantial nonequilibrium carriers in the conduction band with excess energy. In this condition, one expects that the firstly generated coherent LOPC modes may be always suppressed by the secondly pump-pulse if the separation time between the pump-pulses is several hundred femtoseconds.…”

Section: Introductionmentioning

confidence: 99%

Control of carrier transport in GaAs by longitudinal-optical phonon-carrier scattering using a pair of laser pump pulses

Hase

Hayashi

Lee

2011

Journal of Applied Physics

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We demonstrate optical control of the LO phonon-plasmon coupled (LOPC) modes in GaAs by using a femtosecond pump-pulse pair. The relaxation time of the plasmonlike LOPC mode significantly depends on the separation time (Dt) of the pump-pulse pair. Especially it is maximized when Dt becomes simultaneously comparable to the half period of the longitudinal optical (LO) phonon oscillation and resonant to the 3/4 period of the plasmonlike LOPC oscillation. We attribute these observations to the modification of carrier-LO phonon scattering and ballistic motion of the plasmonlike LOPC mode.

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Femtosecond carrier dynamics in an asymmetrically excited GaAs photoconductive switch

Cited by 17 publications

References 20 publications

Terahertz generation from coherent optical phonons in a biased GaAs photoconductive emitter

Terahertz generation from coherent optical phonons in a biased GaAs photoconductive emitter

Investigation of ultra‐wideband electromagnetic radiation based on SI‐GaAs photoconductive switches

Control of carrier transport in GaAs by longitudinal-optical phonon-carrier scattering using a pair of laser pump pulses

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