Suppression of self-focusing through low-pass spatial filtering and relay imaging

Hunt, John T.; Glaze, James A.; Simmons, W. W.; Renard, P.

doi:10.1364/ao.17.002053

Cited by 155 publications

(61 citation statements)

References 9 publications

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“…The control circuit and the power supply are isolated from each other by an isolation amplifier and an opto-coupler. The laser is sequentially relayed and spatially filtered laser system to control the degradation of spatial beam quality of the laser [6] as can be seen from Figure 1, which shows the layout of the laser system. The laser beam has a net accumulated nonlinear phase (B integral) contribution of 2 Np or less.…”

Section: Description Of the Laser Systemmentioning

confidence: 99%

Development of a two arm, high energy, high power laser for plasma research in India

Joshi

Kamath

Sharma

et al. 2013

EPJ Web of Conferences

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Abstract. We report here work done towards development of a two arm, high energy, high power Nd:phosphate glass laser system. One arm of the laser is proposed to be operated in a long pulse (∼1.5 ns pulse duration) with an energy of ∼400 J. Presently, this arm of the laser is operating at energy of ∼100 J after a disc amplifier that amplifies the laser beam of diameter ∼94 mm. After the addition of two more disc amplifiers which are nearing completion, the laser beam will have energy of ∼400 J, with a beam diameter 140 mm, at an intensity of ∼2 GW/cm 2 . This beam will be converted to its second harmonic using a 2 × 2 array KDP crystals. The second arm, under development, will operate with a hybrid amplification scheme using optical parametric chirped pulse amplification (OPCPA) and conventional amplification using the existing Nd:glass amplifiers to produce 50 TW, 25 J, 500 fs pulse. A tiled triangular pulse compressor is under development for compressing the stretched pulse.

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Section: Description Of the Laser Systemmentioning

confidence: 99%

Development of a two arm, high energy, high power laser for plasma research in India

Joshi

Kamath

Sharma

et al. 2013

EPJ Web of Conferences

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“…The image relay with two positive lenses, as shown in Fig. 1, is a wellknown technique [10], but needs to be analyzed with ABCD-matrix for the understanding of its unique characteristics. The ABCD-matrix of the two-lens image relay can be calculated as follows.…”

Section: Analysis Of Image Relaymentioning

confidence: 99%

“…If L=f 1 +f 2 , above equation becomes a well-known image relay formula in a confocal configuration [10] (m ㆍd 1 +d 2 /m=f 1 +f 2 , m=f 2 +f 1 ). One can see that the above equation is always satisfied regardless of L if d 1 =f 1 and d 2 =f 2 .…”

Section: Analysis Of Image Relaymentioning

confidence: 99%

270-W 15-kHz MOPA System Based on Side-pumped Rod-type Nd:YAG Gain Modules

Cha

M.S.Yang

et al. 2008

Journal of the Optical Society of Korea

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We have developed a 270-W 15-kHz MOPA system based on side-pumped rod-type Nd:YAG gain modules. The master oscillator is a 3-W 15-kHz TEM00 Nd:YVO4 laser with a pulse duration of 30 ns. To preserve the high beam quality during the amplification, we use image relay and polarization rotation which can simultaneously compensate for thermal lensing and thermal birefringence generated in the rod-type gain modules. After the amplification to 270 W with six rod-type gain modules, the beam quality factor (M 2 ) of the amplified laser beam is 5-10, and the pulse duration is maintained at 30 ns.

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“…[96][97][98]. The best fill factor that can presently be obtained by using image relaying 99 is T -0.8. Even with perfect relaying, diffraction from dirt, from inad vertent "edge clipping," or from self-focusing intensification, raises intensily peaks above the average mainbeam intensily.…”

Section: Aperture Size Fill Factors and Intensificationmentioning

confidence: 99%

High-power pulsed lasers

Holzrichter¹

1980

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Suppression of self-focusing through low-pass spatial filtering and relay imaging

Cited by 155 publications

References 9 publications

Development of a two arm, high energy, high power laser for plasma research in India

Development of a two arm, high energy, high power laser for plasma research in India

270-W 15-kHz MOPA System Based on Side-pumped Rod-type Nd:YAG Gain Modules

High-power pulsed lasers

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