Below is a partial stock of BBO crystal for type II THG. Please e-mail us for current stock availability and pricing.
BBO crystal for type II THG.
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1040.0(e)+ 520.0(o)= 346.7(e)
At theta = 39.6 deg., phi=30deg.
1030.0(e)+ 515.0(o)= 343.3(e)
At theta = 40.1 deg.., phi=30deg.
| S/N | Batch | crystal | dimension | theta | phi | coating | |
| 02.JP.BBO.399-30.44004001 | F5158-1 | BBO | 4x4x0.4 | 39.9 | 30 | with dia 1" holder | S1:AR-1300/400nm S2:AR-306nm |
| 02.JP.BBO.40-30.11010001 | F6457-10 | BBO | 15x15x1 | 40 | 30 | with dia 1" holder | S1,S2:P-coating |
| 02.JP.BBO.401-30.55008001 | F8780-2 | BBO | 5x5x0.8 | 40.1 | 30 | with dia 1" holder | S1,S2:P-Coating |
| 02.JP.BBO.401-30.55008001 | F8780-2 | BBO | 5x5x0.8 | 40.1 | 30 | with dia 1" holder | S1,S2:P-Coating |
| 02.JP.BBO.40-30.88070001 | G2597-2 | BBO | 8x8x7 | 40 | 30 | S1,S2:P-coating | |
| 02.JP.BBO.401-30.55005001 | G3009-2 | BBO | 5x5x0.5 | 40.1 | 30 | with dia 1" holder | S1,S2:P-Coating(343-1030)nm |
| 02.JP.BBO.399-30.55002501 | G9601-1 | BBO | 5x5x0.25 | 39.9 | 30 | with dia 1" holder | 2 faces polished |
| 02.JP.BBO.40-30.55003001 | G9810-1 | BBO | 5x5x0.3 | 40 | 30 | with dia 1" holder | S1,S2:AR-(600-1100)nm |
| 02.JP.BBO.40-30.55001003 | G9810-3 | BBO | 5x5x0.1 | 40 | 30 | with dia 1" holder | S1.S2:AR-(600-1100)nm |
| 02.JP.BBO.40-30.55001003 | G9810-3 | BBO | 5x5x0.1 | 40 | 30 | with dia 1" holder | S1.S2:AR-(600-1100)nm |
| 02.JP.BBO.401-30.66010001 | H2509-3 | BBO | 6x6x1 | 40.1 | 30 | AR-1030/515/343nm,R<0.2%@1030nm,R<2%@515nm,R<0.5%@343nm | |
| 02.JP.BBO.401-30.66030001 | H4591-2 | BBO | 6x6x3 | 40.1 | 30 | AR-1030/515/343nm, R<0.2%@1030nm, R<0.5%@515nm, R<2%@343nm |
BBO crystal for type II THG.
1040.0(e)+ 520.0(o)= 346.7(e)
Walkoff [mrad] = 71.83 0.00 78.64
Phase velocities = c/ 1.605 1.675 1.652
Group velocities = c/ 1.624 1.725 1.762
Group vel. dispersion in 10^5 cm/sec*m-1=
-0.23 -0.80 -1.31
At theta = 39.6 deg.
deff = 1.25 pm/V
Field gain coeff. = 1.39E-4 /sqrt.Watt
Crystal ang. tol. = 0.38 mrad*m
Temperature range = 15.39 K*m
OPO accpt ang = 0.90 0.43 mrad*m
OPO accpt bw = 9.87 9.87 cm-1*m
1040.0(o)+ 520.0(e)= 346.7(e)
Walkoff [mrad] = 0.00 59.12 62.77
Phase velocities = c/ 1.655 1.580 1.605
Group velocities = c/ 1.674 1.618 1.700
Group vel. dispersion in 10^5 cm/sec*m-1=
-0.28 -0.68 -1.22
At theta = 61.9 deg.
deff = 0.419 pm/V
Field gain coeff. = 4.78E-5 /sqrt.Watt
Crystal ang. tol. = 0.90 mrad*m
Temperature range = 17.42 K*m
OPO accpt ang = 1.06 0.56 mrad*m
OPO accpt bw = 17.79 17.79 cm-1*m
Please notice that the parameter of 'deff' means NLO coefficient. You can see
that the conversion efficiency of the first match is much higher than the second
one. So, normally, most of people select the first phase matching angle.
Third Harmonic Generation of Ti:Sapphire Laser Kits
Third and Forth Harmonic Generator for Ti:Sapphire lasers:
Three Case studies
Femtosecond Harmonic Generators - THG for amplified TiSa - RegA 9000 - fsTHG - fsTHG-AFIT - THG manual - Forth Harmonic Generator - FHG manual
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