Femtosecond pulse recoding and regeneration by a two-photon gated periodic diffractive optics

Nishioka, H.; Tomita, Hitoshi; Ueda, Ken–ichi

doi:10.1007/3-540-27213-5_237

Cited by 5 publications

(1 citation statement)

References 2 publications

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“…The first FDPC experiment has been demonstrated in semiconductor doped colored-glasses having An=105with sub-mJ laser energy [2]. In this paper, we have demonstrated deep modulation of refractive index with a few nano-joule laser pulses from a mode-locked oscillator.…”

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confidence: 96%

Instantaneous optical-phase-recording in a two-photon gated Bragg grating

Hayasaka

Nishoka²,

Ueda³

2005 Pacific Rim Conference on Lasers &Amp;amp; Electro-Optics

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Temporal phase structure of an optical pulse has been recoded with a 10 fs temporal resolution in a two-photon formed Bragg grating. The refractive index modulation of 0.01 has been achieved with 6 nano-joule IR laser pulses.The frequency domain phase conjugator (FDPC) generates time-reversed replica of a phase modulated (frequency chirped) pulse [1]. The time-reversed replica regenerates initial pulse shape after passing though again the same GDD element. We have demonstrated FD phase conjugation by the Time Ordered Pulse Recording/Readout in a Periodic Diffractive Optics (TOPEDO) where the temporal phase structure of optical pulse is recorded as a second-order cross correlation function in space as shown in Fig. 1. The TOPEDO requires two-photon sensitive recording medium that effectively changes its index of refraction by low intensity irradiation. One of the advantages of the two-photon interference is that the two pulses can be interacted each other with a long time delay exceeding their coherent length. Moreover, the interference efficiently produces deep amplitude modulation even with small gate pulse energy. We have numerically examined the interaction length and the contrast ratio in the two-photon Reference pulse mom, cross correlation between the TL-reference and chirped pulses. A visibility of 0.5 has been evaluated when the ratio of pulse duration is 50.The first FDPC experiment has been demonstrated in semiconductor doped colored-glasses having An=105with sub-mJ laser energy [2]. In this paper, we have demonstrated deep modulation of refractive index with a few nano-joule laser pulses from a mode-locked oscillator. In general, change of refractive index is produced as a result of absorption breaching due to laser irradiation. Thus an ideal material should have large absorption change with small laser energy. The medium should be initially optically thick at the two-photon wavelength and should has a large absorption cross section producing low saturation fluence. We have developed dye-doped thermo plastic film for this purpose. Pulses coming from a 10 fs mode-locked laser was splitted into two-beams and interacts at the focal plane of a microscope objective as shown in Fig.2. The laser pulse bound 22 times between a pair of chirped mirror to compensate a GDD of 1260 fS2 produced by the microscope objective. The pulse duration and Fourier phase were monitored by frequency shearing interferometory (SPIDER). An interference fringes at the focal plane is 13 micron wide and 207 micron thick. The average 2 laser intensity at the plane was 3.7 GW/cM Fig.1 Schematics illustration of two-photon-gated pulse recording and time-reversed readout in a periodic diffractive optics. 1604

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confidence: 96%

Instantaneous optical-phase-recording in a two-photon gated Bragg grating

Hayasaka

Nishoka²,

Ueda³

2005 Pacific Rim Conference on Lasers &Amp;amp; Electro-Optics

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Frequency-domain Phase Conjugator for a Few-cycle and a Few-nJ Optical Pulses

Nishioka

Hayakawa

Tomita

et al. 2007

Springer Series in Optical Sciences

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Frequency-domain phase conjugator by a two-photon gated Bragg grating for nJ laser pulses

Nishoka

Hayasaka

Tomita

et al. 2005

2005 IEEE LEOS Annual Meeting Conference Proceedings

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Temporal phase structure of a 10 fs optical pulse has been regenerated by a two-photon gated photosensitive Bragg grating. The refractive index modulation of n=0.03 has been achieved with 6 nano-joule IR laser pulses.The frequency domain phase conjugator (FDPC) generates time-reversed replica of a phase modulated (frequency chirped) pulse [1]. The time-reversed replica regenerates initial pulse shape after passing though again the same GDD element. We have demonstrated FD phase conjugation by the Time Ordered Pulse Recording/Readout in a Periodic Diffractive Optics (TOPEDO) where the temporal phase structure of optical pulse is recorded as a second-order cross correlation function in space as shown in Fig.1. The TOPEDO requires two-photon sensitive recording medium that effectively changes its index of refraction by low intensity irradiation. One of the advantages of the two-photon interference is that the two pulses can be interacted each other with a long time delay exceeding their coherent length. Moreover, the interference efficiently produces deep amplitude modulation even with small gate pulse energy.The first FDPC experiment has been demonstrated in semiconductor doped colored-glasses having index modulation n=10 -5 with sub-mJ and 100 fs laser pulses [2]. For the 10 fs pulses, however, these media are inefficient. Because diffraction efficiency proportion to square of coherent length, much higher index modulation is required for the a few cycle gratingsIn this paper, we have demonstrated deep modulation in refractive index with a few nano-joule laser pulses directly from a mode-locked oscillator without cavity extension. We have developed photosensitive dye-doped thermo plastic film for this purpose. Pulses coming from a 10 fs mode-locked laser was splitted into two-beams and interacts at the focal plane of a microscope objective as shown in Fig.2. The laser pulse bound 22 times between a pair of chirped mirror to compensate a GDD of 1260 fs 2 produced by the microscope objective. The pulse duration and Fourier phase were monitored by frequency shearing interferometory technique (SPIDER). An interference fringes at the focal plane is 13 micron wide and 207 micron thick. The average laser intensity at the plane was 3.7 GW/cm 2 . C307 laser dye solved in vinyl acetate having an absorption cross section of nonlinear medium Recorded chirpedgrating Frequency chirped pulse Readout pulse Reference pulse Time reversed replica nonlinear medium nonlinear medium Recorded chirpedgrating Frequency chirped pulse Readout pulse Reference pulse Time reversed replicaFig.1 Schematics illustration of two-photon-gated pulse recording and time-reversed readout in a periodic diffractive optics. 697 0-7803-9217-5/05/$20.00©2005 IEEE WDD4 16:30 -16:45

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Femtosecond pulse recoding and regeneration by a two-photon gated periodic diffractive optics

Cited by 5 publications

References 2 publications

Instantaneous optical-phase-recording in a two-photon gated Bragg grating

Instantaneous optical-phase-recording in a two-photon gated Bragg grating

Frequency-domain Phase Conjugator for a Few-cycle and a Few-nJ Optical Pulses

Frequency-domain phase conjugator by a two-photon gated Bragg grating for nJ laser pulses

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