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Measuring system for high repetition rate ultra-short light pulse carrier envelope phase

A technology of pulse carrier and measurement system, applied in the direction of optical radiation measurement, measurement device, measurement optics, etc., can solve the problems of complex structure, high pulse width and energy requirements, and achieve simple structure, high measurement accuracy and direct measurement method Effect

Active Publication Date: 2018-07-24
XI'AN INST OF OPTICS & FINE MECHANICS - CHINESE ACAD OF SCI
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Problems solved by technology

Therefore, this technique is only suitable for small-period pulsed carrier-envelope phase measurements
At the same time, because ATI high-energy electron spectroscopy requires tens of microjoules of less-period pulses to be generated in a vacuum chamber filled with xenon, the requirements for pulse width and energy are high, and the structure is complex.

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  • Measuring system for high repetition rate ultra-short light pulse carrier envelope phase
  • Measuring system for high repetition rate ultra-short light pulse carrier envelope phase
  • Measuring system for high repetition rate ultra-short light pulse carrier envelope phase

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Embodiment approach

[0049] Such as figure 2 As shown, in this embodiment, the optical pulse coupling mirror is a cylindrical coupling mirror 1, and the spectral dispersion imaging device is composed of a slit 2, a first cylindrical mirror 3, a reflection grating 4, and a second cylindrical mirror 5; The beam detector is a parallel dragon base grating 6 placed directly against the spatial interference fringe pattern; as image 3 As shown, the parallel dragon grating 6 is two identical dragon gratings made on the same substrate and made to have a 1 / 4 cycle displacement; adjusting the position of the parallel dragon grating divides the spatial interference fringe pattern into two image planes Two subspace interference fringe patterns with the same area and 1 / 4 period displacement; the photodetection device includes two focusing mirrors 7, a first photodiode 8, a second photodiode 9 and an oscilloscope;

[0050] Two collinear ultrashort optical pulses with a certain time-delayed phase difference re...

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Abstract

The invention provides a measuring system for high repetition rate ultra-short light pulse carrier envelope phase. The system adopts a light pulse coupling mirror and is coupled to an inlet of a spectral dispersion imaging device along two collinear ultra-short light pulses having time-delay T. The interference spectrum of the two collinear ultra-short light pulses is mapped into a space interference fringe pattern related to phase difference by the spectral dispersion imaging device, and the space interference fringe pattern is divided into two parts having the same strength through a beam splitter. Two space modulators whose modulation period is the same as that of the interference fringe and having a 1 / 4 period displacement difference are adopted to respectively modulate the two parts of fringe patterns, and the displacement difference between the two space is 1 / 4 period. Two identical photoelectric detection devices of the same are adopted to detect the strength of signals penetrating through the two space modulators. The invention is advantageous in that the ultra-short light pulse carrier envelope phase difference can be obtained through the polar angle of a two-dimensional parameter curve formed by two photoelectric detection devices. The invention is advantageous in that the continuous single-shot measuring and controlling of the megahertz high repetition rate light pulse carrier envelope can be realized, and the carrier envelope phase of the pulse can be observed in a visual and real-time manner.

Description

technical field [0001] The invention belongs to the technical field of ultrafast phenomena and precision measurement, and in particular relates to a measurement system for the envelope phase of an ultrashort optical pulse carrier with a high repetition rate. Background technique [0002] The emergence of femtosecond pulses has greatly facilitated the study of ultrafast phenomena. The study of the interaction between light and matter under extreme conditions, especially the study of deeper high-order nonlinear physical phenomena such as the generation of attosecond pulses, strongly depends on the optical field intensity of ultrashort and ultraintense pulses. The change of the ultrashort pulse light field intensity is closely related to the phase of the carrier envelope of the pulse, especially for periodic pulses, the intensity of the two adjacent light fields in the pulse envelope is very different, so the carrier envelope phase completely determines the envelope The size o...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J9/02
CPCG01J9/02G01J2009/0234
Inventor 程昭王屹山王向林赵卫
Owner XI'AN INST OF OPTICS & FINE MECHANICS - CHINESE ACAD OF SCI
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