BBO Nonlinear Crystal
β-BaB2O4 (BBO, Barium Metaborate) is a widely used nonlinear crystal for frequency conversion in the UV, visible and NIR. It has the following characteristics:
- large birefringence
- Low dispersion
- High damage threshold
- Wide phase-matching range
- Good temperature stability
- Large nonlinear optical effects
- A frequency multiplication factor six times higher than that of KDP crystals
BBO nonlinear crystal can be used in high, precise and advanced laser technology fields of research and development. These fields include all-solid-state tunable laser, ultrafast pulsed laser, deep ultraviolet Laser, etc. It is also used for the following purposes:
- Nd:YAG and Nd:YLF lasers for frequency doubling
- Tripling and mixing of dye lasers
- Ti:Sapphire and Alexandrite lasers for frequency doubling
- Tripling and quadrupling
- Optical parametric amplifiers (OPA)
- Optical parametric oscillators (OPO)
- Argon ion, ruby, and Cu vapor lasers for frequency doubling
The features of BBO nonlinear crystal:
- Good physical properties
- Appropriate mechanical properties
- Temperature bandwidth about 55 °C
- High optical uniformity: δn≈10-6/cm
- Transmission range from 190 nm to 3500 nm
- Phase matching range from 6 nm to 3500 nm
- Large effective SHG (second harmonic generation) coefficient
- 100 ps pulse damage threshold of 10 J/cm2 at 1064 nm
FOR TI:SAPPHIRE LASER SHG@800 nm, Type 1
| Model | Size(mm3) | θ(°) | φ(°) | Coating | Pulse Width | Bracket | Delivery |
| BBO-06005-S-800P | 6×6×0.05 | 29.2 | 90 | P/P@400-800 nm on UVFS substrate 10*10*2 | 10fs | Yes | Request |
| BBO-10005-S-800P | 10×10×0.05 | 29.2 | 90 | P/P@400-800 nm on UVFS substrate 12*12*2 | 10fs | Yes | Request |
| BBO-0601-S-800P | 6×6×0.1 | 29.2 | 90 | P/P@400-800 nm | 20fs | Yes | Request |
| BBO-0801-S-800P | 8×8×0.1 | 29.2 | 90 | P/P@400-800 nm | 20fs | Yes | Request |
| BBO-1001-S-800P | 10×10×0.1 | 29.2 | 90 | P/P@400-800 nm | 20fs | Yes | Request |
| BBO-1201-S-800P | 12×12×0.1 | 29.2 | 90 | P/P@400-800 nm | 20fs | Yes | Request |
| BBO-1501-S-800P | 15×15×0.1 | 29.2 | 90 | P/P@400-800 nm | 20fs | Yes | Request |
| BBO-2001-S-800P | 20×20×0.1 | 29.2 | 90 | P/P@400-800 nm | 20fs | Yes | Request |
| BBO-2201-S-800P | 22×22×0.1 | 29.2 | 90 | P/P@400-800 nm | 20fs | Yes | Request |
| BBO-0602-S-800P | 6×6×0.2 | 29.2 | 90 | P/P@400-800 nm | 50fs | Yes | Request |
| BBO-0802-S-800P | 8×8×0.2 | 29.2 | 90 | P/P@400-800 nm | 50fs | Yes | Request |
| BBO-1002-S-800P | 10×10×0.2 | 29.2 | 90 | P/P@400-800 nm | 50fs | Yes | Request |
| BBO-1202-S-800P | 12×12×0.2 | 29.2 | 90 | P/P@400-800 nm | 50fs | Yes | Request |
| BBO-1502-S-800P | 15×15×0.2 | 29.2 | 90 | P/P@400-800 nm | 50fs | Yes | Request |
| BBO-2002-S-800P | 20×20×0.2 | 29.2 | 90 | P/P@400-800 nm | 50fs | Yes | Request |
| BBO-2202-S-800P | 22×22×0.2 | 29.2 | 90 | P/P@400-800 nm | 50fs | Yes | Request |
| BBO-0605-S-800P | 6×6×0.5 | 29.2 | 90 | P/P@400-800 nm | 100fs | Yes | Request |
| BBO-0805-S-800P | 8×8×0.5 | 29.2 | 90 | P/P@400-800 nm | 100fs | Yes | Request |
| BBO-1005-S-800P | 10×10×0.5 | 29.2 | 90 | P/P@400-800 nm | 100fs | Yes | Request |
| BBO-1205-S-800P | 12×12×0.5 | 29.2 | 90 | P/P@400-800 nm | 100fs | Yes | Request |
| BBO-1505-S-800P | 15×15×0.5 | 29.2 | 90 | P/P@400-800 nm | 100fs | Yes | Request |
| BBO-2005-S-800P | 20×20×0.5 | 29.2 | 90 | P/P@400-800 nm | 100fs | Yes | Request |
| BBO-2205-S-800P | 22×22×0.5 | 29.2 | 90 | P/P@400-800 nm | 100fs | Yes | Request |
| BBO-0610-S-800P | 6×6×1 | 29.2 | 90 | P/P@400-800 nm | 200fs | Yes | Request |
| BBO-0810-S-800P | 8×8×1 | 29.2 | 90 | P/P@400-800 nm | 200fs | Yes | Request |
| BBO-1010-S-800P | 10×10×1 | 29.2 | 90 | P/P@400-800 nm | 200fs | Yes | Request |
| BBO-1210-S-800P | 12×12×1 | 29.2 | 90 | P/P@400-800 nm | 200fs | Yes | Request |
| BBO-1510-S-800P | 15×15×1 | 29.2 | 90 | P/P@400-800 nm | 200fs | Yes | Request |
| BBO-2010-S-800P | 20×20×1 | 29.2 | 90 | P/P@400-800 nm | 200fs | Yes | Request |
| BBO-2210-S-800P | 22×22×1 | 29.2 | 90 | P/P@400-800 nm | 200fs | Yes | Request |
| BBO-0620-S-800P | 6×6×2 | 29.2 | 90 | P/P@400-800 nm | / | Yes | Request |
| BBO-0620-O-800P | 6×6×2 | 31.5 | 90 | P/P@400-800 nm | / | Yes | Request |
| BBO-0820-S-800P | 8×8×2 | 29.2 | 90 | P/P@400-800 nm | / | Yes | Request |
| BBO-1020-S-800P | 10×10×2 | 29.2 | 90 | P/P@400-800 nm | / | Yes | Request |
| BBO-1220-S-800P | 12×12×2 | 29.2 | 90 | P/P@400-800 nm | / | Yes | Request |
| BBO-1520-S-800P | 15×15×2 | 29.2 | 90 | P/P@400-800 nm | / | Yes | Request |
| BBO-2020-S-800P | 20×20×2 | 29.2 | 90 | P/P@400-800 nm | / | Yes | Request |
| BBO-2220-S-800P | 22×22×2 | 29.2 | 90 | P/P@400-800 nm | / | Yes | Request |
| BBO-0805-T-800P | 8×8×0.5 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
FOR YB:KGW/KYW LASER SHG@1030 nm, Type 1
| Model | Size(mm3) | θ(°) | φ(°) | Coating | Pulse Width | Bracket | Delivery |
| BBO-0803-S-1030P | 8×8×0.3 | 23.4 | 90 | P/P@515-1030 nm | Yes | Request | |
| BBO-0605-S-1030AR | 6×6×0.5 | 23.4 | 90 | AR/AR@515+1030 nm | 50fs | Yes | Request |
| BBO-1005-S-1030AR | 10×10×0.5 | 23.4 | 90 | AR/AR@515+1030 nm | 50 fs | Yes | Request |
| BBO-0808-S-1030AR | 8×8×0.8 | 23.4 | 90 | AR/AR@515+1030 nm | Yes | Request | |
| BBO-0610-S-1030AR | 6×6×1 | 23.4 | 90 | AR/AR@515+1030 nm | 100 fs | Yes | Request |
| BBO-1010-S-1030AR | 10×10×1 | 23.4 | 90 | AR/AR@515+1030 nm | 100 fs | Yes | Request |
| BBO-0615-S-1030AR | 6×6×1.5 | 23.4 | 90 | AR/AR@515+1030 nm | 150fs | Yes | Request |
| BBO-0615-S-1030P | 6×6×1.5 | 23 | 90 | P/P@515-1030 nm | 150fs | Yes | Request |
| BBO-1015-S-1030AR | 10×10×1.5 | 23.4 | 90 | AR/AR@515+1030 nm | 150 fs | Yes | Request |
| BBO-0620-S-1030AR | 6×6×2 | 23.4 | 90 | AR/AR@515+1030 nm | 200fs | Yes | Request |
| BBO-0820-S-1030AR | 8×8×2 | 23.4 | 90 | AR/AR@515+1030 nm | 200fs | Yes | Request |
| BBO-1020-S-1030AR | 10×10×2 | 23.4 | 90 | AR/AR@515+1030 nm | 200 fs | Yes | Request |
| BBO-0630-S-1030AR | 6×6×3 | 23.4 | 90 | AR/AR@515+1030 nm | 300 fs | Yes |
FOR TI:SAPPHIRE LASER THG@800 nm, Type 1
| Model | Size(mm3) | θ(°) | φ(°) | Coating | Pulse Width | Bracket | Delivery |
| BBO-06001-T-800P | 6×6×0.01 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 10*10*2 | 10fs | Yes | Request |
| BBO-06001-T-800P | 8×8×0.01 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 10*10*2 | 10fs | Yes | Request |
| BBO-06001-T-800P | 10×10×0.01 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 12*12*2 | 10fs | Yes | Request |
| BBO-06002-T-800P | 6×6×0.02 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 10*10*2 | 20fs | Yes | Request |
| BBO-06002-T-800P | 8×8×0.02 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 10*10*2 | 20fs | Yes | Request |
| BBO-06002-T-800P | 10×10×0.02 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 12*12*2 | 20fs | Yes | Request |
| BBO-06005-T-800P | 6×6×0.05 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 10*10*2 | 50fs | Yes | Request |
| BBO-06005-T-800P | 8×8×0.05 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 10*10*2 | 50fs | Yes | Request |
| BBO-06005-T-800P | 10×10×0.05 | 44.3 | 90 | P/P@400-800/266 nm on UVFS substrate 12*12*2 | 50fs | Yes | Request |
| BBO-0601-T-800P | 6×6×0.1 | 44.3 | 90 | P/P@400-800/266 | 100fs | Yes | Request |
| BBO-0801-T-800P | 8×8×0.1 | 44.3 | 90 | P/P@400-800/266 | 100fs | Yes | Request |
| BBO-1001-T-800P | 10×10×0.1 | 44.3 | 90 | P/P@400-800/266 | 100fs | Yes | Request |
| BBO-1201-T-800P | 12×12×0.1 | 44.3 | 90 | P/P@400-800/266 | 100fs | Yes | Request |
| BBO-1501-T-800P | 15×15×0.1 | 44.3 | 90 | P/P@400-800/266 | 100fs | Yes | Request |
| BBO-2001-T-800P | 20×20×0.1 | 44.3 | 90 | P/P@400-800/266 | 100fs | Yes | Request |
| BBO-2201-T-800P | 22×22×0.1 | 44.3 | 90 | P/P@400-800/266 | 100fs | Yes | Request |
| BBO-0602-T-800P | 6×6×0.2 | 44.3 | 90 | P/P@400-800/266 | 200fs | Yes | Request |
| BBO-0802-T-800P | 8×8×0.2 | 44.3 | 90 | P/P@400-800/266 | 200fs | Yes | Request |
| BBO-1002-T-800P | 10×10×0.2 | 44.3 | 90 | P/P@400-800/266 | 200fs | Yes | Request |
| BBO-1202-T-800P | 12×12×0.2 | 44.3 | 90 | P/P@400-800/266 | 200fs | Yes | Request |
| BBO-1502-T-800P | 15×15×0.2 | 44.3 | 90 | P/P@400-800/266 | 200fs | Yes | Request |
| BBO-2002-T-800P | 20×20×0.2 | 44.3 | 90 | P/P@400-800/266 | 200fs | Yes | Request |
| BBO-2202-T-800P | 22×22×0.2 | 44.3 | 90 | P/P@400-800/266 | 200fs | Yes | Request |
| BBO-0605-T-800P | 6×6×0.5 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-0805-T-800P | 8×8×0.5 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-1005-T-800P | 10×10×0.5 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-1205-T-800P | 12×12×0.5 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-1505-T-800P | 15×15×0.5 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-2005-T-800P | 20×20×0.5 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-2205-T-800P | 22×22×0.5 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-0610-T-800P | 6×6×1 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-0810-T-800P | 8×8×1 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-1010-T-800P | 10×10×1 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-1210-T-800P | 12×12×1 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-1510-T-800P | 15×15×1 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-2010-T-800P | 20×20×1 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
| BBO-2210-T-800P | 22×22×1 | 44.3 | 90 | P/P@400-800/266 | / | Yes | Request |
FOR YB:KGW/KYW LASER THG@1030 nm, Type 1
| Model | Size(mm3) | θ(°) | φ(°) | Coating | Pulse Width | Bracket | Delivery |
| BBO-06015-T-1030P | 6×6×0.15 | 32.5 | 90 | P/P@515-1030/343 nm | 50 fs | Yes | Request |
| BBO-06025-T-1030P | 6×6×0.25 | 32.5 | 90 | P/P@515-1030/343 nm | 100 fs | Yes | Request |
| BBO-0604-T-1030P | 6×6×0.4 | 32.5 | 90 | P/P@515-1030/343 nm | 150 fs | Yes | Request |
| BBO-06055-T-1030P | 6×6×0.55 | 32.5 | 90 | P/P@515-1030/343 nm | 200 fs | Yes | Request |
FOR YB:KGW/KYW LASER 4HG@1030 nm, Type 1
| Model | Size(mm3) | θ(°) | φ(°) | Coating | Pulse Width | Bracket | Delivery |
| BBO-0601-4-515P | 6×6×0.1 | 50 | 90 | P/P@515/257 nm | 50 fs | Yes | Request |
| BBO-06015-4-515P | 6×6×0.15 | 50 | 90 | P/P@515/257 nm | 100 fs | Yes | Request |
| BBO-0602-4-515P | 6×6×0.2 | 50 | 90 | P/P@515/257 nm | 150 fs | Yes | Request |
| BBO-0603-4-515P | 6×6×0.3 | 50 | 90 | P/P@515/257 nm | 200 fs | Yes | Request |
BBO 4HG@1064 nm,Type 1
| Model | Size(mm3) | θ(°) | φ(°) | Coating | Bracket | Delivery |
| BBO-0760-4-1064P | 7×7×6 | 47.6 | 90 | P/P@532/266 nm | Yes | Request |
Type 1 Phase Matching, OPA
| Model | Size(mm3) | θ(°) | Coating | Bracket | Delivery |
| BBO-0520-O-1030P | 5×5×2 | 21.3 | AR@1030nm&1800- 2250nm | Yes | Request |
| BBO-0520-O-1030P | 5×5×3 | 21.3 | AR@1030nm&1800- 2250nm | Yes | Request |
| BBO-0650-O-1030P | 6×6×5 | 20.1 | Protective AR@1030nm (R<1%)& VIS 1700nm-2300nm (R<5%) | Yes | Request |
| BBO-0820-O-1030P | 8×8×2 | 20.1 | Protective AR@1030nm (R<1%)& VIS 1700nm-2300nm (R<5%) | Yes | Request |
| BBO-0830-O-515P | 8×8×3 | 22 | P/P coating AR@515nm | Yes | Request |
| BBO-0840-O-1030P | 8×8×4 | 20.1 | Protective AR@1030nm (R<1%)& VIS 1700nm-2300nm (R<5%) | Yes | Request |
| BBO-0840-O-515P | 8×8×4 | 22 | P/P coating AR@515nm | Yes | Request |
| BBO-0850-O-515P | 8×8×5 | 22 | P/P coating AR@515nm | Yes | Request |
| BBO-1020-O-1030 | 10×10×2 | 21.3 | AR@1030nm&1800- 2250nm | Yes | Request |
| BBO-1030-O-1030 | 10×10×3 | 21.3 | AR@1030nm&1800- 2250nm | Yes | Request |
Type 2 Phase Matching, OPA
| Model | Size(mm3) | θ(°) | Coating | Bracket | Delivery |
| BBO-0806-O-800P-II | 8×8×0.6 | 30 | P/P@750-1500 nm | Yes | Request |
| BBO-0601-O-1030P-II | 6×6×0.1 | 46 | P/P@400-1040/300-500 nm | Yes | Request |
Physical and Chemical Properties
| Attribute | Numerical |
| Chemical Formula | BaB2O4 |
| Crystal Structure | Trigonal System, 3m |
| Lattice Parameters | a=b=12.532Å,c=12.717Å, Z=6 |
| Mass Density | 3.85 g/cm3 |
| Mohs Hardness | 4 |
| Melting Point | About1095°C |
| Coefficient of Thermal Conductivity | 1.2 W/m/K (⊥c); 1.6 W/m/K (//c) |
| Coefficient of Thermal Expansion | α,4×10-6/K; c,36×10-6/K |
| Birefringence | Negative Uniaxial |
Nonlinear Optical Properties
| Attribute | Numerical |
| SHG Phase Matching Range | 409.6 ∼3500nm (Type I); 525 ∼3500nm (TypeII) |
| NLO Coefficient | d11= 5.8 x d36(KDP); d31 = 0.05 x d11; d22< 0.05 x d11 |
| deff(I)=d31sinθ+ (d11cos3φ – d22sin3φ)cosθ | |
| deff(II)=(d11sin3φ+ d22cos3θ)cos2θ | |
| Thermal Coefficient of Light | dno/dT = – 9.3 x 10-6/◦C |
| dne/dT = -16.6 x 10-6/◦C | |
| Electro-optic Coefficient | g11= 2.7 pm/V, g22, g31< 0.1 g11 |
| Half-wave Voltage | 48 KV (at 1064 nm) |
| 1.064μm | 5 GW/cm2 (10 ns); 10 GW/cm2 (1.3 ns) |
| 0.532μm | 1 GW/cm2 (10 ns); 7 GW/cm2 (250 ps) |
Linear Optical Properties
| Attribute | Numerical |
| Transparent Range | 189 – 3500 nm |
| Absorption Coefficient | α<0.1%/cm @1064nm |
| At 1.0642μm | ne = 1.5425, no = 1.6551 |
| At 0.5321μm | ne = 1.5555, no = 1.6749 |
| At 0.2660 μm | ne = 1.6146, no = 1.7571 |
| Sellmeier Equation(λinμm) | no2(λ) = 2.7359+0.01878/(λ2-0.01822)-0.01354λ2 |
| ne2(λ) = 2.3753+0.01224/(λ2-0.01667)-0.01516λ2 |
The experimental value of the internal Angle of the bandwidth when T=293K
| Interaction Wavelength [μm] | θpm [deg] | Δθint [deg] |
| SHG, o+o ⇒e | ||
| 1.0642⇒0.5321 | 22.8 | 0.021 |
| 22.7 | 0.03 | |
| 0.5321⇒0.26605 | 47.3 | 0.01 |
| 0.53⇒0.265 | 47.6(298K) | 0.006 |
| SFG, o+o ⇒ e | ||
| 1.0641+0.53205⇒0.3547 | 31.3 | 0.011 |
| 1.0642+0.5321⇒0.35473 | 31.1 | 0.015 |
| 2.44702+0.5712⇒0.4631 | 22.1 | 0.026 |
| 2.68823+0.5712⇒0.4711 | 21.8 | 0.028 |
| SHG, e+o ⇒e | ||
| 1.0642⇒0.5321 | 32.7 | 0.034 |
| 32.4 | 0.046 | |
| SFG, e+o ⇒e | ||
| 1.0642+0.5321⇒0.35473 | 38.4 | 0.02 |
| SFG, o+e ⇒e | ||
| 1.0642+0.5321⇒0.35473 | 58.4 | 0.05 |
Experimental Value of Phase Matching Angle (T=293K)
| Interaction Wavelength[μm] | θexp [deg] |
| SHG, o+o ⇒ e | |
| 0.4096⇒0.2048 | 90 |
| 0.41⇒0.20 | 90 |
| 0.41152⇒0.20576 | 82.8 |
| 0.41546⇒0.20773 | 79.2 |
| 0.418⇒0.209 | 77.3 |
| 0.429⇒0.2145 | 71 |
| 0.4765⇒0.23825 | 57 |
| 0.488⇒0.244 | 54.5 |
| 0.4965⇒0.24825 | 52.5 |
| 0.5106⇒0.2553 | 50/50.6 |
| 0.5145⇒0.25725 | 49.5 |
| 0.5321⇒0.26605 | 47.3/47.5/47.6/48 |
| 0.589⇒0.2945 | 41.5 |
| 0.604⇒0.302 | 40 |
| 0.6156⇒0.3078 | 39 |
| 0.616⇒0.308 | 38 |
| 0.70946⇒0.35473 | 32.9/33/33.1/33.3/33.7 |
| 0.78⇒0.39 | 31/30 |
| 0.8⇒0.4 | 26.5 |
| 0.946⇒0.473 | 24.9 |
| 1.0642⇒0.5321 | 22.7/22.8 |
| SFG, o+o ⇒ e | |
| 0.73865+0.25725⇒0.1908 | 81.7 |
| 0.72747+0.26325⇒0.1933 | 76 |
| 0.5922+0.2961⇒0.1974 | 88 |
| 0.5964+0.2982⇒0.1988 | 82.5 |
| 0.5991+0.29955⇒0.1997 | 80 |
| 0.60465+0.30233⇒0.20155 | 76.2 |
| 0.5321+0.32561⇒>0.202 | 83.9 |
| 0.6099+0.30495⇒0.2033 | 73.5 |
| 0.5321+0.34691⇒0.21 | 71.9 |
| 0.7736+0.25787⇒0.1934 | 70.7 |
| 0.5321+0.35473⇒0.21284 | 70 |
| 0.51567+0.38675⇒0.221 | 64.7 |
| 0.804+0.268⇒0.201 | 64 |
| 0.75+0.375⇒0.25 | 61.7 |
| 1.0642+0.26605⇒0.21284 | 51.1 |
| 0.78+0.373⇒0.2523 | 47.4 |
| 1.0642+0.298⇒0.23281 | 46.1 |
| 0.5782+0.5106⇒0.27115 | 46 |
| 0.59099+0.5321⇒0.28 | 44.7 |
| 0.78+0.43⇒0.2772 | 43.4 |
| 1.0642+0.35473⇒0.26605 | 40.2 |
| 1.0641+0.53205⇒0.3547 | 31.3 |
| 1.0642+0.5321⇒0.35473 | 31.1/31.3/31.4 |
| 2.68823+0.5712⇒0.4711 | 21.8 |
| 1.41831+1.0642⇒0.608 | 21 |
| SHG, e+o ⇒ e | |
| 0.5321⇒0.26605 | 81 |
| 0.70946⇒0.35473 | 48/48.1 |
| 1.0642⇒0.5321 | 31.6/32.4/32.7/32.9 |
| SFG, e+o ⇒ e | |
| 1.0642+0.35473⇒0.26605 | 46.6 |
| 1.0642+0.5321⇒0.35473 | 38.4/38.5 |
| SFG, o+e ⇒ e | |
| 1.0642+0.5321⇒0.35473 | 59.8 |
Spectra
 |  |
| BBO Transmission Spectrum | The SHG Tuning Curve of BBO |
 |  |
| BBO's OPO tuning curves type I OOE under different pump lamps, 53nm,355nm and 266nm | BBO's OPO tuning curve type II EOE under different pump lamps 530 nm 355 nm and 266 nm |
FAQ
1. What is BBO Nonlinear Crystal, and what is it used for?
BBO Nonlinear Crystal is a type of crystal that has nonlinear optical properties, meaning it can change the frequency of light that passes through it. It is commonly used in a range of applications such as frequency doubling, parametric oscillation, and optical parametric amplification.
2. What are the advantages of using BBO Nonlinear Crystal?
BBO Nonlinear Crystal has several advantages, including a high damage threshold, wide transparency range, large effective nonlinear coefficient, and high thermal conductivity. It is also relatively easy to handle and can be used for a variety of applications.
3. What is the maximum power that BBO Nonlinear Crystal can handle?
BBO Nonlinear Crystal can handle a maximum power of up to a few hundred watts, depending on the crystal’s size and configuration. However, it is recommended to use the crystal within the specified power range to prevent damage.
4. How can I clean BBO Nonlinear Crystal?
BBO Nonlinear Crystal should be handled with care to prevent damage or scratches. To clean the crystal, use a clean and soft cloth or tissue with a small amount of acetone or alcohol. Avoid using harsh chemicals or abrasive materials that can damage the crystal’s surface.
5. Can BBO Nonlinear Crystal be used with high-power lasers?
Yes, BBO Nonlinear Crystal can be used with high-power lasers, but it is essential to use the crystal within its specified power range and with proper cooling to prevent thermal damage.
6. How do I choose the right BBO Nonlinear Crystal for my application?
The choice of BBO Nonlinear Crystal depends on several factors such as the wavelength of the input laser, the desired output wavelength, the required conversion efficiency, and the available power. If you still have questions, please consult us, we have a knowledgeable technician and nonlinear optics expert to determine the best crystal for your specific application.
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BBO nonlinear crystal
β-BaB2O4 (BBO, Barium Metaborate) is a widely used nonlinear crystal for frequency conversion in the UV, visible and NIR.BBO nonlinear crystal(Beta barium borate) can be used in high, precise and advanced laser technology fields of research and development. These fields include all-solid-state tunable laser, ultrafast pulsed laser, deep ultraviolet Laser, etc.
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