Near-infrared wavelength tunable totally-positive dispersion femtosecond optical fiber laser

A fully positive dispersion, femtosecond fiber technology, used in lasers, laser parts, phonon exciters, etc., can solve problems such as instability and reduce nonlinear effects, and achieve reasonable structure, high single-pulse energy, and simple mechanism. Effect

Active Publication Date: 2013-12-04
无锡拓尔激光技术有限公司
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AI Technical Summary

Problems solved by technology

Due to the introduction of positive and negative dispersion elements, the pulse is periodically stretched and compressed in the cavity. When the pulse is chirped, the pulse width is increased, the nonlinear effect is reduced, and the energy of this pulse is increased by an order of magnitude, but Continuing to increase the single pulse energy will cause instability

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  • Near-infrared wavelength tunable totally-positive dispersion femtosecond optical fiber laser
  • Near-infrared wavelength tunable totally-positive dispersion femtosecond optical fiber laser

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Embodiment Construction

[0018] Below the present invention will be further described in conjunction with the embodiment in the accompanying drawing:

[0019] Such as Figure 1-Figure 2 As shown, it includes LD pump source 1, bandpass filter 2, wavelength division multiplexer 3, ytterbium-doped gain fiber 4, first single-mode fiber 5, collimator with pigtail 6, first quarter A wave plate 7, a first half-wave plate 8, a polarization splitter prism 9, a birefringent filter 10, a spatial optical isolator 11, a second quarter-wave plate 12, a collimator 13, a second single Modulated optical fiber 14, the second half-wave plate 15, the second polarization splitter prism 16, high reflection mirror 17, the first reflective grating 18 installed on the grating mirror frame, the second reflective grating 19, mounted on the mirror The silver mirror 20 on the frame is installed at the bottom of the reflective grating 19 mirror frame, and the translation platform 21 that can precisely control the moving distance....

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Abstract

The invention relates to a near-infrared wavelength tunable totally-positive dispersion femtosecond optical fiber laser which comprises an optical fiber oscillator and a pulse width compression device. The optical fiber oscillator is connected with a band-pass filter through an LD pumping source, the band-pass filter is connected with a wavelength division multiplexer, the wavelength division multiplexer is connected with an ytterbium doped gain optical fiber, the ytterbium doped gain optical fiber is connected with a first single mode optical fiber, the first single mode optical fiber is connected with a discrete component, a collimating apparatus is connected with a second single mode optical fiber, and the second single mode optical fiber is welded with the wavelength division multiplexer. The pulse width compression device is connected with a high mirror through a second half wave plate, the high mirror is respectively connected with a second polarization splitting prism and two reflecting type optical gratings, the two reflecting type optical gratings are connected with a silver mirror, and the silver mirror is connected with a silver mirror bracket. The near-infrared wavelength tunable totally-positive dispersion femtosecond optical fiber laser is good in heat dissipation performance, high in light beam quality, compact in structure, small and exquisite in size, low in cost, high in light conversion efficiency and good in environmental stability.

Description

technical field [0001] The invention relates to a fiber laser, in particular to a total positive dispersion femtosecond fiber laser with a wavelength near 1 micron and a center wavelength tunable from 1020nm to 1050nm. Background technique [0002] Ultrashort pulse laser refers to pulse laser with extremely narrow width in time. Its characteristics of high peak power, narrow pulse width and wide spectrum make it play an irreplaceable role in many fields. Information acquisition technologies that use ultrashort pulse lasers as probes, such as time-resolved spectroscopy, femtosecond streak cameras, pump-probe technology, time-resolved Raman spectroscopy, ultra-high time-resolved scanning probe microscopy, etc. These ultra-fast information acquisition technologies have greatly promoted the development of ultra-fast technology. Directly bring the research of physics, chemistry, biology, material information and science into the field of microscopic ultrafast processes, and cre...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01S3/067H01S3/11H01S3/098
Inventor 王军利卜祥宝李成龙
Owner 无锡拓尔激光技术有限公司
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