BBO crystal for Type I SHG Second Harmonic Generation - sales@dmphotonics.com
BBO crystal for Type I SHG - sales@dmphotonics.com Sample specifications: BBO crystal, Type I, SHG 500 nm to 250 nm, 6x6x0.2 mm, AR coated sales@dmphotonics.com BBO crystal SHG, 6x6x0.2 mm, coated CR-BBO-6-6-0.2-AR BBO crystal, SHG Dimensions 6x6 mm Tolerance +/-0.1 mm Thickness 0.2 mm Tolerance +/-0.1 mm Surface accuracy, at 633 nm λ/6 Surface quality, scr-dig 10-5 Parallelism 5 arc min Orientation: Type I, SHG 532nm to 266nm Θ 47.7°, Φ 0° Tolerance +/-0.5° Coating Surface S1, S2: AR/AR at 532 nm (R 0.2%) and 266nm (R 0.5%) CR-BBO-10-10-0.53 Alpha-BBO crystal, 10x10x0.53 mm, AR 400-800 nm CR-BBO-12-12-0.2-AR BBO crystal SHG, 12x12x0.2 mm, coated CR-BBO-6-6-0.2-AR BBO crystal SHG, 6x6x0.2 mm, coated CR-BBO-12-12-0.1 BBO crystal, 12x12x0.1 mm CR-BBO-15-15-0.2 BBO crystal, 15x15x0.2 mm CR-BBO-5-5-0.5 BBO crystal, 5x5x0.5 mm CR-BBO-5-5-2 BBO crystal, 5x5x2 mm CR-BBO-5-5-4 BBO crystal, 5x5x4 mm BBO crystals - BBO crystals examples - 800nm to 400nm 800nm to 266nm - BBO crystal for type II THG - How to choose BBO crystal for type II THG - BBO crystal for SPIDER - alpha-BBO - alpha-BBO to compensate group velocity delay alpha-BBO, size 8x8x0.2mm, a-cut, P-coating@266nm, mounted in 1 inch anodized Al holder - same, size 8x8x0.4mm bbo crystal price bbo crystal doubling efficiency bbo crystal thorlabs bbo crystal structure bbo crystal entanglement bbo crystal wiki bbo doubling crystal alpha bbo b-Barium-Borate crystals (BBO) combine wide transparency range, large nonlinear coupling, wide thermal acceptance bandwidth, high laser damage threshold and good mechanical properties. Applications: Second harmonic generation (SHG) from UV down to about 2.1 mm Broadly tunable optical parametric oscillators (OPOs) and amplifiers (OPAs) Auto correlation systems Solid State and Dye laser harmonics generation with output in the range 200 - 532 nm; OPO/OPA pumped by Nd:YAG harmonics with 295 - 3000 nm output Range,mm Typical Applications LBO 0.16 - 3.3 High power lasers harmonics generation and OPO pumped by Nd:YAG harmonics BBO 0.19 - 3.3 - Solid State and Dye laser harmonics generation with output in the range 200 - 532 nm; - OPO/OPA pumped by Nd:YAG harmonics with 295 - 3000 nm output KTP 0.38 - 4.4 Harmonics generation in UV and VIS KD*P and KDP 0.26 - 1.6 Harmonics generation in VIS LiNbO3 and MgO:LiNbO3 0.4 - 4.5 SHG and OPO pumped by Nd:YAG laser LiIO3 0.3 - 6.0 SHG and THG of Nd:YAG, DFM with output in 3 - 5 mm range AgGaS2 0.53 - 12 OPO and DFM with wide tunable output in 3 - 10 mm, IR visualization AgGaSe2 0.73 - 18 SHG of CO2 lasers, OPO with 3 - 12 mm output CdSe 0.75 - 25 DFM with tunable output up to 25 mm Te 3.8 - 32 DFM with output in 15 - 30 mm Featured Inquiry: I would like a quote for a Type 1 SHG crystal, BBO, for conversion of 800 nm to 400 nm, cut to 29.2 degrees (theta) with a thickness of 0.5 mm and a crystal size appropriate for a 9mm diameter beam (do you have a 10x10?). Additionally I would like a quote for a Type 1 THG crystal 800+400=266 nm, cut to 44.3 degrees (theta), with a thickness of .3mm for a similar beamsize. Featured request: I am interested in type 1 BBO crystal for sum frequency generation by combining 800 (Ti:Sapp laser ~100fs) and 800~1000 nm (supercontinuum light pumped by the fs laser). Main purpose of this crystal is to find zero delay time between pump and supercontinuum. I also will use it for characterizing chirping of supercontinuum and measuring autocorrelation of fs laser. Dimension of 6*6 mm is fine. I am not sure what thickness would be best for my application between 0.2 mm and 1 mm. Could you tell me the advantages and disadvantages between the two thicknesses? Broadband anti-reflection coating for 400-1000 nm is available? Featured inquiry: We are interested in buying two type I beta-BBO crystals for SHG of 800 nm, respectively SFG of 800nm with 400nm, and an alpha- BBO crystal for delay compensation. Could you please give me the following information: 1) the threshold fluency for a ~150 fs, 1kHz repetition rate 800 nm pulse. 2) Sellmeiers coefficients for ordinary 800 nm, extraordinary 400 nm, extraordinary 266.66 nm. 3) the second order group dispersion (dispersion parameter D) for both 800 nm and 400 nm 4) the group velocity mismatch GVM
BBO crystal for Type I SHG - sales@dmphotonics.com Sample specifications: BBO crystal, Type I, SHG 500 nm to 250 nm, 6x6x0.2 mm, AR coated sales@dmphotonics.com BBO crystal SHG, 6x6x0.2 mm, coated CR-BBO-6-6-0.2-AR BBO crystal, SHG Dimensions 6x6 mm Tolerance +/-0.1 mm Thickness 0.2 mm Tolerance +/-0.1 mm Surface accuracy, at 633 nm λ/6 Surface quality, scr-dig 10-5 Parallelism 5 arc min Orientation: Type I, SHG 532nm to 266nm Θ 47.7°, Φ 0° Tolerance +/-0.5° Coating Surface S1, S2: AR/AR at 532 nm (R 0.2%) and 266nm (R 0.5%) CR-BBO-10-10-0.53 Alpha-BBO crystal, 10x10x0.53 mm, AR 400-800 nm CR-BBO-12-12-0.2-AR BBO crystal SHG, 12x12x0.2 mm, coated CR-BBO-6-6-0.2-AR BBO crystal SHG, 6x6x0.2 mm, coated CR-BBO-12-12-0.1 BBO crystal, 12x12x0.1 mm CR-BBO-15-15-0.2 BBO crystal, 15x15x0.2 mm CR-BBO-5-5-0.5 BBO crystal, 5x5x0.5 mm CR-BBO-5-5-2 BBO crystal, 5x5x2 mm CR-BBO-5-5-4 BBO crystal, 5x5x4 mm BBO crystals - BBO crystals examples - 800nm to 400nm 800nm to 266nm - BBO crystal for type II THG - How to choose BBO crystal for type II THG - BBO crystal for SPIDER - alpha-BBO - alpha-BBO to compensate group velocity delay alpha-BBO, size 8x8x0.2mm, a-cut, P-coating@266nm, mounted in 1 inch anodized Al holder - same, size 8x8x0.4mm bbo crystal price bbo crystal doubling efficiency bbo crystal thorlabs bbo crystal structure bbo crystal entanglement bbo crystal wiki bbo doubling crystal alpha bbo b-Barium-Borate crystals (BBO) combine wide transparency range, large nonlinear coupling, wide thermal acceptance bandwidth, high laser damage threshold and good mechanical properties. Applications: Second harmonic generation (SHG) from UV down to about 2.1 mm Broadly tunable optical parametric oscillators (OPOs) and amplifiers (OPAs) Auto correlation systems Solid State and Dye laser harmonics generation with output in the range 200 - 532 nm; OPO/OPA pumped by Nd:YAG harmonics with 295 - 3000 nm output Range,mm Typical Applications LBO 0.16 - 3.3 High power lasers harmonics generation and OPO pumped by Nd:YAG harmonics BBO 0.19 - 3.3 - Solid State and Dye laser harmonics generation with output in the range 200 - 532 nm; - OPO/OPA pumped by Nd:YAG harmonics with 295 - 3000 nm output KTP 0.38 - 4.4 Harmonics generation in UV and VIS KD*P and KDP 0.26 - 1.6 Harmonics generation in VIS LiNbO3 and MgO:LiNbO3 0.4 - 4.5 SHG and OPO pumped by Nd:YAG laser LiIO3 0.3 - 6.0 SHG and THG of Nd:YAG, DFM with output in 3 - 5 mm range AgGaS2 0.53 - 12 OPO and DFM with wide tunable output in 3 - 10 mm, IR visualization AgGaSe2 0.73 - 18 SHG of CO2 lasers, OPO with 3 - 12 mm output CdSe 0.75 - 25 DFM with tunable output up to 25 mm Te 3.8 - 32 DFM with output in 15 - 30 mm Featured Inquiry: I would like a quote for a Type 1 SHG crystal, BBO, for conversion of 800 nm to 400 nm, cut to 29.2 degrees (theta) with a thickness of 0.5 mm and a crystal size appropriate for a 9mm diameter beam (do you have a 10x10?). Additionally I would like a quote for a Type 1 THG crystal 800+400=266 nm, cut to 44.3 degrees (theta), with a thickness of .3mm for a similar beamsize. Featured request: I am interested in type 1 BBO crystal for sum frequency generation by combining 800 (Ti:Sapp laser ~100fs) and 800~1000 nm (supercontinuum light pumped by the fs laser). Main purpose of this crystal is to find zero delay time between pump and supercontinuum. I also will use it for characterizing chirping of supercontinuum and measuring autocorrelation of fs laser. Dimension of 6*6 mm is fine. I am not sure what thickness would be best for my application between 0.2 mm and 1 mm. Could you tell me the advantages and disadvantages between the two thicknesses? Broadband anti-reflection coating for 400-1000 nm is available? Featured inquiry: We are interested in buying two type I beta-BBO crystals for SHG of 800 nm, respectively SFG of 800nm with 400nm, and an alpha- BBO crystal for delay compensation. Could you please give me the following information: 1) the threshold fluency for a ~150 fs, 1kHz repetition rate 800 nm pulse. 2) Sellmeiers coefficients for ordinary 800 nm, extraordinary 400 nm, extraordinary 266.66 nm. 3) the second order group dispersion (dispersion parameter D) for both 800 nm and 400 nm 4) the group velocity mismatch GVM