CN202550279U - BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser - Google Patents

BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser Download PDF

Info

Publication number
CN202550279U
CN202550279U CN2012201433105U CN201220143310U CN202550279U CN 202550279 U CN202550279 U CN 202550279U CN 2012201433105 U CN2012201433105 U CN 2012201433105U CN 201220143310 U CN201220143310 U CN 201220143310U CN 202550279 U CN202550279 U CN 202550279U
Authority
CN
China
Prior art keywords
crystal
frequency
raman
batemo2o9
laser
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN2012201433105U
Other languages
Chinese (zh)
Inventor
陶绪堂
高泽亮
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shandong University
Original Assignee
Shandong University
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shandong University filed Critical Shandong University
Priority to CN2012201433105U priority Critical patent/CN202550279U/en
Application granted granted Critical
Publication of CN202550279U publication Critical patent/CN202550279U/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Landscapes

  • Lasers (AREA)
  • Optical Modulation, Optical Deflection, Nonlinear Optics, Optical Demodulation, Optical Logic Elements (AREA)

Abstract

The utility model provides a BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser, which comprises a pump light source, a diaphragm, a light rotator and a resonant cavity, wherein the pump light source, the diaphragm, the light rotator and the resonant cavity are sequentially arranged together; the resonant cavity comprises an input mirror, a BaTeMo2O9 crystal, an output mirror and a filter; the BaTeMo2O9 crystal is arranged between the input mirror and the output mirror; the filter is arranged on the outer side of the output mirror; two end faces of the BaTeMo2O9 crystal are plated by antireflection films with the thicknesses of 1064nm, 1178nm and 589nm; and the input mirror and the output mirror are coated by films. Raman crystals and frequency-doubled crystals are replaced by BaTeMo2O9 crystals, a Raman self-frequency-doubled mode is realized in the crystals in an out-of-cavity resonance mode, the Raman conversion of 1064nm fundamental frequency light is realized, Raman light nearby 1178nm is obtained and is frequency-doubled, a 589nm yellow laser is generated, and the BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser has the characteristics of compact structure, high efficiency and stability.

Description

BaTeMo 2O 9The crystal all-solid-state self-frequency doubling yellow Raman laser
Technical field
The utility model relates to a kind of employing BaTeMo 2O 9The all solid state self-frequency doubling yellow laser of crystal belongs to all solid state laser technical field.
Background technology
Yellow orange wave band (560-600nm) laser is suitable for laser display and illumination near the responsive wavelength (555nm) of human eye, particularly in the geodesic survey and the purposes of this collimation occasion that have under the fog situation.Gold-tinted laser has important use at aspects such as medical science, radar, spectroscopy, survey Hai Xue, information stores and laser navigations, has become one of research focus of field of lasers.But owing to can't produce gold-tinted through the direct transition of active ions at present, therefore, the laser that produces yellow band is than the visible light difficulty that produces its all band.At present, utilize stimulated Raman scattering (SRS) effect of crystal, to the 1100-1200nm wave band, frequency multiplication obtains only a kind of effective method of yellow orange again with the frequency displacement of 1064nm laser.Adopt the mode of solid-state raman laser frequency multiplication to obtain yellow orange light and have the laser output that pumping efficiency height, structure are simple relatively, be convenient to safeguard, obtain easily high light beam quality.
Be applicable to that at present the Raman crystal that produces the 1100-1200nm wave band concentrates in the middle of the oxide of ternary, mainly comprises: tungstates (BaWO 4, SrWO 4), nitrate (Ba (NO 3) 2), vanadate (YVO 4, GdVO 4) etc.These crystal obtain to realize frequency multiplication through KTP or lbo crystal after the raman laser output, finally obtain the output of yellow orange light.Representational have with BaWO 4, SrWO 4Be Raman matrix,, produce 1180nm single order Stokes Raman light, after KTP or LBO frequency multiplication, obtain 590nm yellow orange laser with the 1064nm laser pumping; (H.M.Pask et.al, Opt.Lett., 24,1490,1999.) realize carrying out frequency multiplication from raman laser through KTP or LBO with the Nd:YVO4 crystal, obtain near 586 yellow orange light.(A.J.Lee et.al, Opt.Express, 16,21958,2008.) in these representational gold-tinted raman laser output procedures, Raman frequency shift and frequency multiplication realize that through two kinds of crystal laser structure relative complex, cost are higher relatively, the adjustment difficulty is bigger.
BaTeMo 2O 9Crystal is a kind of new function crystal, belongs to monoclinic system, and space group is P2 1, people such as the Zhang Weiguo of crystal institute of Shandong University adopt flux growth method to obtain large scale, high-quality monocrystalline first, and its physical property is studied.(ZhangW., Tao X., Zhang C., Gao Z., Zhang Y.; Yu W., Cheng X., Liu X., and Jiang M., Cryst.Growth Des.; 8,304,2008.) result shows, this crystal has excellent second-order nonlinear optical property and SRS effect.Under the 1064nm pumping condition, near first Stokes raman laser (1178nm) has efficient, stable output, and can realize the non-critical phase matched of this wavelength.In addition, crystal has high damage threshold, wide transmission region, moderate mechanical performance, stable physical and chemical performance.
Summary of the invention
Deficiencies such as the utility model is higher to complex structure, cost that existing gold-tinted raman laser export technique exists, the adjustment difficulty is bigger provide a kind of compact conformation, efficient, stable BaTeMo 2O 9The crystal all-solid-state self-frequency doubling yellow Raman laser.
The BaTeMo of the utility model 2O 9The crystal all-solid-state self-frequency doubling yellow Raman laser, adopt following technical scheme:
This self-frequency doubling yellow Raman laser comprises pump light source, diaphragm, polarization apparatus resonant cavity, and pump light source, diaphragm, polarization apparatus resonant cavity are arranged in order together, and resonant cavity comprises input mirror, BaTeMo 2O 9Crystal, outgoing mirror and filter plate, BaTeMo 2O 9Crystal is arranged between input mirror and the outgoing mirror, and filter plate is arranged on the outside of outgoing mirror; BaTeMo 2O 9The both ends of the surface of crystal all are coated with 1064nm, 1178nm and 589nm anti-reflection film; Input mirror is coated with 1064nm anti-reflection film, 570nm-590 and 1140nm-1185nm high-reflecting film; Outgoing mirror is coated with 1140nm-1185nm high-reflecting film and 570nm-590nm anti-reflection film.
Pump light source is 1064nm acousto-optic or electro-optical Q-switching laser.
BaTeMo 2O 9Crystal is according to saphe coupling in the XOY plane or the processing of two saphe matching directions.
The laser that pump light source produced becomes 2mm through spot size behind the diaphragm, is 45 ° through polarization apparatus adjusting rear polarizer direction and horizontal direction, gets into BaTeMo through input mirror 2O 9In the crystal, realize that stimulated Raman scattering produces the 1178nm Raman light, the 1178nm Raman light that is produced is through BaTeMo 2O 9Produce simultaneously during crystal from frequency multiplication, obtain 589nm yellow orange light, realize the output of 1178nm Raman light once more after the total reflection of 1064nm laser process outgoing mirror, realize the round trip pumping, 1178nm laser vibrates in resonant cavity, and the 589nm yellow orange light of generation is exported by outgoing mirror.
The utility model uses BaTeMo 2O 9A kind of crystal replaces Raman crystal and frequency-doubling crystal; Adopt the pumping of 1064nm Q-switch laser simultaneously; In a crystal with the chamber outside the mode of resonance realized Raman from frequency multiplication, the Raman conversion that realizes 1064nm fundamental frequency light obtains near the Raman light the 1178nm, and realizes the frequency multiplication to this Raman light; Successfully produce 589nm gold-tinted laser, had compact conformation, efficient, stable characteristics.
Description of drawings
Fig. 1 is the utility model BaTeMo 2O 9The structural representation of crystal all-solid-state self-frequency doubling yellow Raman laser.
Wherein: 1, pump light source, 2, diaphragm, 3, polarization apparatus, 4, input mirror, 5, outgoing mirror, 6, filter plate, 7, BaTeMo 2O 9Crystal.
Embodiment
Embodiment 1
As shown in Figure 1, the BaTeMo of the utility model 2O 9The crystal all-solid-state self-frequency doubling yellow Raman laser comprises pump light source 1, diaphragm 2, polarization apparatus 3 resonant cavity.Electric-optically Q-switched Nd:YVO 4 Laser 1, diaphragm 2, polarization apparatus 3 resonant cavity are arranged in order together.Resonant cavity comprises input mirror 4, BaTeMo 2O 9Crystal 7, outgoing mirror 5 and filter plate 6, BaTeMo 2O 9Crystal 7 is arranged between input mirror 4 and the outgoing mirror 5, and filter plate 6 is arranged on the outside of outgoing mirror 5.
The centre wavelength of pump light source 1 is 1064nm, can carry out electric-optically Q-switchedly, and pumping source can be used Nd 3+YAG, Nd 3+Electric light such as GGG, acousto-optic Q modulation laser replace.Present embodiment adopts electric-optically Q-switched Nd:YVO 4Laser is as pump light source.
BaTeMo 2O 9The both ends of the surface of crystal 7 all are coated with 1064nm, 1178nm and 589nm anti-reflection film; Cutting angle is (90 °, 52.7 °).BaTeMo in the present embodiment 2O 9Crystal 7 is according to two saphe matching directions processing in the XOY plane, BaTeMo 2O 9Crystal 7 is of a size of 4 * 4 * 10mm 3
Resonant cavity can be straight chamber, also can change the resonant cavity of doing alternate manner.The chamber length and the shape of resonant cavity can be according to BaTeMo 2O 9The length of crystal 7 is adjusted.The chamber of resonant cavity length is 12mm in the present embodiment.Input mirror 4 plating 1064nm anti-reflection films, 570-590 and 1140-1185nm high-reflecting film; Outgoing mirror 5 plating 1140-1185nm high-reflecting films, the 570-590nm anti-reflection film.
Nd:YVO 4Laser that laser produced becomes about 2mm through diaphragm 2 back spot sizes, and polarization state rear polarizer direction and horizontal direction through polarization apparatus 3 are 45 °, through input mirror 4 entering BaTeMo 2O 9In the crystal 7, realize that stimulated Raman scattering produces the 1178nm Raman light, the 1178nm Raman light that is produced is through BaTeMo 2O 9Produce simultaneously during crystal 7 from frequency multiplication, produce 589nm yellow orange light.Because the selection of input mirror 4 and outgoing mirror 5,1064nm laser is realized the round trip pumping, and 1178nm is at the resonant cavity interior resonance, and yellow orange light is finally by outgoing mirror 5 outputs.
Above-mentioned laser obtains the 589nm yellowish orange laser output of 5.6mJ when pump energy 48mJ, corresponding light light conversion efficiency is 11.7%.
Embodiment 2
The light path setting of present embodiment is identical with embodiment 1, and different is with BaTeMo 2O 9Crystal 7 is according to the processing of saphe coupling angle, and the polarization direction of polarization apparatus 3 meets the requirement of saphe coupling.

Claims (2)

1. BaTeMo 2O 9The crystal all-solid-state self-frequency doubling yellow Raman laser comprises pump light source, diaphragm, polarization apparatus resonant cavity, it is characterized in that: pump light source, diaphragm, polarization apparatus resonant cavity are arranged in order together, and resonant cavity comprises input mirror, BaTeMo 2O 9Crystal, outgoing mirror and filter plate, BaTeMo 2O 9Crystal is arranged between input mirror and the outgoing mirror, and filter plate is arranged on the outside of outgoing mirror; BaTeMo 2O 9The both ends of the surface of crystal all are coated with 1064nm, 1178nm and 589nm anti-reflection film; Input mirror is coated with 1064nm anti-reflection film, 570nm-590 and 1140nm-1185nm high-reflecting film; Outgoing mirror is coated with 1140nm-1185nm high-reflecting film and 570nm-590nm anti-reflection film.
2. BaTeMo according to claim 1 2O 9The crystal all-solid-state self-frequency doubling yellow Raman laser is characterized in that: said pump light source is 1064nm acousto-optic or electro-optical Q-switching laser.
CN2012201433105U 2012-04-06 2012-04-06 BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser Expired - Lifetime CN202550279U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2012201433105U CN202550279U (en) 2012-04-06 2012-04-06 BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2012201433105U CN202550279U (en) 2012-04-06 2012-04-06 BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser

Publications (1)

Publication Number Publication Date
CN202550279U true CN202550279U (en) 2012-11-21

Family

ID=47170849

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2012201433105U Expired - Lifetime CN202550279U (en) 2012-04-06 2012-04-06 BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser

Country Status (1)

Country Link
CN (1) CN202550279U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108761622A (en) * 2018-08-17 2018-11-06 山东大学 A kind of true zero level optical wave plate of the large scale of low wavelength sensitivity and the preparation method and application thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108761622A (en) * 2018-08-17 2018-11-06 山东大学 A kind of true zero level optical wave plate of the large scale of low wavelength sensitivity and the preparation method and application thereof
CN108761622B (en) * 2018-08-17 2024-01-23 山东大学 Large-size true zero-order optical wave plate with low wavelength sensitivity and preparation method and application thereof

Similar Documents

Publication Publication Date Title
CN106229806B (en) The tunable alaxadrite laser of Raman yellow light pumping
CN103618205A (en) Full-solid-state single longitudinal mode yellow light laser
CN101592845A (en) Dual-wavelength tunable inner cavity tera-hertz parametric oscillator and using method thereof
CN101345388B (en) Solid laser device for simultaneously outputting red, yellow and green light and its laser generation method
CN105633786A (en) Multi-wavelength all-solid-state yellow-light laser
CN102623885B (en) All solid Raman self frequency doubling yellow laser of BaTeMo2O9 crystal
CN102570280B (en) Blue, green and ultraviolet solid laser device based on submarine communication application and laser generating method thereof
CN101777724B (en) End-pumped dual-wavelength coaxial switching output Q-switched base-frequency and double-frequency laser
CN202050155U (en) Full-solid-state yellow light self-mode-locked Raman laser
CN103531996A (en) Three-terminal output dual-wavelength laser
CN104253375B (en) A kind of high repetition frequency narrow pulse width single-mode green light laser
CN103199427B (en) Intracavity single-resonance optical parametric oscillator
CN102157892A (en) High-power ultraviolet laser
CN201349092Y (en) All-solid-state electro-optic Q-switched green laser
CN101345389B (en) Full-solid state five-wavelength simultaneously outputting laser device and 5-wavelength laser generation method
CN101000996A (en) Quasi-continuous green laser with double-bar series full solid-state straight cavity high power single-Q switch
CN202888602U (en) Diode end-pumped all-solid-state ultraviolet laser device
CN202550279U (en) BaTeMo2O9 crystal all-solid-state Raman self-frequency-doubled yellow laser
CN100438232C (en) Quasi-continuous high power red, green double-wavelength laser with LD side pumping
CN101261419A (en) All-solid-state continuous wave tunable yellow and orange coherent optical source
CN104659648B (en) Neodymium-doped barium silicate is from frequency multiplication ultrashort pulse laser
CN102522690A (en) Nd3<+>-doped gain-medium-based intra-cavity sum-frequency continuous-wave ultraviolet laser
CN202749676U (en) End-pumped dual-wavelength coaxial switching output laser device
CN101447639A (en) Full solid state electro-optic modulation Q green laser
CN102623886A (en) All solid-state Raman laser based on BaTeMo2O9 crystal

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CX01 Expiry of patent term

Granted publication date: 20121121

CX01 Expiry of patent term