A Kerr lens self-mode-locked titanium sapphire laser based on blue laser diode pumping

A technology of laser diodes and gemstone lasers, which is applied to lasers, laser components, phonon exciters, etc., can solve the problem that comprehensive output indicators such as pulse width and average power do not reach the pump output indicators of all solid-state frequency-doubling lasers, and are difficult to be high. Power output, poor beam quality and other issues, to achieve broad application prospects and commercial value, simple and compact structure, low cost effect

Active Publication Date: 2019-01-11
XIDIAN UNIV
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Problems solved by technology

However, the comprehensive output indicators such as pulse width and average power have not reached the output indicators of the Ti:Sapphire laser pumped by the all-solid-state frequency doubling laser, so there is still a lot of room for development of the LD pumped Ti:Sapphire laser.
[0003] In summary, the existing technical problems are: the maximum output power of a single multi-mode blue LD is 3.5 W, and the maximum output power of a multi-mode green LD is 1.5 W. It is difficult to achieve high power output by pumping Ti:Sapphire with a single LD, so Need to use LD double-sided pumping or combine multiple LDs spatially
Secondly, the quality of the LD beam is poor, and it is necessary to reshape the beam and focus it into the crystal, so that the pump light and the intracavity laser have a better mode matching, in order to realize the self-mode-locked operation of the Kerr lens

Method used

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  • A Kerr lens self-mode-locked titanium sapphire laser based on blue laser diode pumping
  • A Kerr lens self-mode-locked titanium sapphire laser based on blue laser diode pumping
  • A Kerr lens self-mode-locked titanium sapphire laser based on blue laser diode pumping

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specific Embodiment

[0055] exist figure 1 Among them, the light beam of the first 450 nm blue laser diode 1 passes through the aspheric lens 4 to make the fast and slow axes collimated; then the collimated light beam passes through the first plano-concave cylindrical lens 5 and the first plano-convex cylindrical lens 8 in sequence so that The slow axis of the light beam is expanded and collimated; the collimated light beam is reflected by the first 450 nm high reflection mirror 9 to the third 450 nm high reflection mirror 11; the light beam of the second 450 nm blue laser diode 2 passes through the second aspheric lens 3 Make the fast and slow axes collimated; then the collimated light beam passes through the second plano-concave cylindrical lens 6 and the second plano-convex cylindrical lens 7 in order to expand and collimate the slow axis of the light beam; the collimated light beam Reflected by the first 450 nm high reflection mirror 10 to the third 450 nm high reflection mirror 11, the light ...

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Abstract

The invention discloses a Kerr lens self-mode-locked titanium sapphire laser based on novel blue laser diode pumping, Its structural features are: The novel blue laser diode-pumped Kerr lens self-mode-locked titanium sapphire laser comprises a blue laser diode, an aspherical lens, a cylindrical concave lens, a cylindrical convex lens, a 450 nm high-reflector, a plano-convex focusing mirror, a concave mirror, a titanium sapphire crystal, a coupling output mirror, a fused silica triprism and a laser high-reflector. The laser diode has the advantages of small volume, simple structure, high stability, low cost and the like, and is used for replacing the pump source of the traditional titanium sapphire femtosecond oscillator-all-solid-state frequency doubling laser. Therefore, the novel blue laser diode-pumped Kerr lens self-mode-locked Ti: sapphire laser provided by the invention has the advantages of compact, simple structure, stable operation, low cost and the like.

Description

technical field [0001] The invention belongs to the technical field of ultrafast lasers, in particular to a Kerr lens self-mode-locked titanium sapphire laser pumped by blue light laser diodes. Background technique [0002] Since the birth of lasers, people have been pursuing and hoping to obtain shorter pulse widths. Fast time resolution is possible thanks to the ultra-short pulse width. Similar to a high-speed camera capturing high-speed motion, an ultra-short pulse laser can "freeze" ultra-fast motion such as molecules or electrons at a certain moment, so it can detect Electro-optic sampling of chemical reaction kinetics and high-speed moving electrons, and other femtosecond dynamical processes. The use of ultrashort pulse lasers can indirectly detect molecular decomposition kinetics and more complex chemical reaction kinetics. The use of ultra-intense lasers can provide a completely new extreme physical condition, which can only be found in nature in the interior of st...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01S3/094H01S3/0941H01S3/098
CPCH01S3/094049H01S3/0941H01S3/1118
Inventor 朱江峰刘寒张大成田文龙王阁阳魏志义
Owner XIDIAN UNIV
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