BBO Crystals for Spontaneous Parametric Down Conversion

Optimized for Type I and Type II Spontaneous Parametric Down Conversion
Source for Polarization Entangled Photons or Heralded Single Photons
Cut for Normal Incidence with 405 nm, 532 nm, or 775 nm Pump Lasers
Available in Thicknesses of 1.00 mm, 2.00 mm, and 3.00 mm

When one of these β-BBO Crystals is mounted in the RSP1 mount, the crystal will be centered over the 8-32 (M4) hole in the mount's base without the need for spacers.

NLCQ1

1.00 mm Thick, θ = 29.2°
5.0 mm Aperture

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Overview
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Key Common Specifications^a
Material	β-BBO (beta-BaB₂O₄)
Aperture	Ø5.0 mm
Clear Aperture	>Ø4.0 mm
Transmitted Wavefront Error	λ/3 @ 632.8 nm Over Clear Aperture
Surface Quality	20-10 Scratch-Dig
Optic Axis Angle^b Tolerance	±0.5°

See the Specs tab for complete specifications.
Angle Between the Surface Normal and the Optic Axis of the Crystal

Features

β-BBO (beta-BaB₂O₄) Crystals Optimized for Spontaneous Parametric Down Conversion (SPDC)
- Type-I or Type-II SPDC
- Collinear and Noncollinear SPDC
Designed for Use with 405 nm, 532 nm, or 775 nm Pump Lasers
Markings on Housing Indicate Rotation Axis and Polarization Orientations

Thorlabs' β-BBO crystals for Spontaneous Parametric Down Conversion (SPDC) are designed for Type-I or Type-II SPDC, a nonlinear process where a single high-energy pump photon is down converted into a signal and idler pair of lower-energy photons, conserving both energy and momentum in the process. SPDC is commonly used as a source for polarization-entangled photon pairs or as a heralded single-photon source. Type-I SPDC outputs signal and idler photons with the same polarization, perpendicular to the pump polarization. Type-II SPDC outputs signal and idler photons with polarizations perpendicular to each other. Crystals are available for Type-I or Type-II SPDC, both collinear and noncollinear, designed for pump wavelengths of 405 nm, 532 nm, or 775 nm.

SPDC is the reverse process of sum frequency generation (SFG) and, in the degenerate case, second harmonic generation (SHG). As such, these BBO crystals are very similar to crystals designed for second harmonic generation. The primary difference is in the crystal lengths. Crystals for SHG are designed to match the group velocity walkoff of typical pulse durations. By contrast, the SPDC process is not limited in the same way. This allows for the use of thicker crystals that can provide greater efficiency (more signal/idler photon counts) at the cost of a blurring of the wavelength-position correlation of the photons. In order to support applications with differing requirements, these SPDC-optimized BBO crystals are available in thicknesses of 1.00 mm, 2.00 mm, and 3.00 mm.

Each crystal has an antireflection (AR) coating to provide low reflectance over the pump, signal, and idler wavelengths. For plots of the antireflection performance, see the Specs tab. The crystals are mounted in Ø1" housings that have a Ø5.0 mm aperture and engravings to aid in aligning the crystal with the polarization state and propagation direction of the input pump beam for phase matching (see Alignment for Optimal SPDC below).

To distinguish between pump and signal/idler photons (especially for collinear SPDC), a high optical density long-pass filter should be used. An optical density of 7 or greater is recommended which typically precludes the use of just a single filter. These crystals produce signal and idler photons with wavelengths in the visible to near infrared where single-photon detection is practical with detectors like the SPDMA Single Photon Detection Module.

NLC06 Crystal in an RSP1 Rotation Mount on an RP01 Rotation Stage

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View Imperial Product List

Item #	Qty	Description
NLCQ6	1	Ø1" Mounted β-BBO Crystal, 3.00 mm Thick, θ = 41.8°, Type-II SPDC, 405 nm Pump and 810 nm Signal/Idler
RSP1	1	Rotation Mount for Ø1" (25.4 mm) Optics, 8-32 Tap
RP01	1	Ø2" Manual Rotation Stage
TR2	1	Ø1/2" Optical Post, SS, 8-32 Setscrew, 1/4"-20 Tap, L = 2"
UPH2	1	Ø1/2" Universal Post Holder, Spring Loaded Locking Thumbscrew, L = 2"

View Metric Product List

Item #	Qty	Description
NLCQ6	1	Ø1" Mounted β-BBO Crystal, 3.00 mm Thick, θ = 41.8°, Type-II SPDC, 405 nm Pump and 810 nm Signal/Idler
RSP1/M	1	Rotation Mount for Ø1" (25.4 mm) Optics, M4 Tap
RP01/M	1	Ø2" Manual Rotation Stage, Metric
TR50/M	1	Ø12.7 mm Optical Post, SS, M4 Setscrew, M6 Tap, L = 50 mm
UPH50/M	1	Ø12.7 mm Universal Post Holder, Spring-Loaded Locking Thumbscrew, L = 50 mm

NLCQ6 Crystal in an RSP1 Rotation Mount on an RP01 Rotation Stage

Alignment for Optimal SPDC
The front of each crystal’s housing is engraved with the polarization orientations for the pump input beam (marked 2ω) and resulting orthogonally polarized SPDC-generated signal/idler beams (marked 1ω). A zero-order half-wave plate prior to the BBO crystal can be used to rotate the polarization of a linearly polarized pump beam to match the 2ω axis of the crystal. A line across the middle of the housing, labeled Rotation Axis, indicates the axis around which the crystal can be rotated in order to adjust the angle between the pump beam’s propagation direction and the optic axis of the crystal.

Thorlabs recommends mounting these crystals in an RSP1(/M) rotation mount attached to a manual rotation stage, such as Item # XRNR1(/M) or RP01(/M), as seen in the image to the left. When the crystal's housing is installed in the RSP1(/M) mount, the crystal will be centered over the 8-32 (M4) threaded hole in the bottom of the mount without the need to use spacers or additional retaining rings. This allows the crystal to be centered on the RP01(/M) rotation stage, which provides the fine control needed to optimize the phase matching angle by adjusting the angle of incidence. In this example case, the crystal is oriented for a horizontally polarized input pump beam.

To optimize the SPDC process in β-BBO, phase matching can be achieved by aligning the polarization of the pump input beam parallel to the crystal's principal extraordinary axis (marked 2ω), and then adjusting the angle between the optic axis and propagation direction to tune the phase matching, and thus the efficiency of the SPDC process. For each of the crystals below, the angle between the optic axis and the normal to the crystal surface was chosen so that phase matching would be optimized for normally incident light at the design wavelength listed in the tables below. Fine tuning in the range of ±1° around normal incidence will be necessary to achieve the desired collinear or non-collinear phase matching condition. Tuning to a greater angle allows for phase matching with a different wavelength pump laser; see the Specs tab for plots of tuning sensitivity.

Usage, Handling, and Care
Use care and always wear gloves when handling BBO crystals. These crystals scratch easily and the BBO is hygroscopic. Protect the crystals from excess moisture such as high humidity environments. In high-humidity environments, desiccant can help prolong the lifespan of the crystal. If needed, we recommend removing dust by gently puffing with clean dry air only, as detailed in the Blowing Off the Surface of an Optic section in our Optics Handling and Care Tutorial.

Item #	NLCQ1	NLCQ2	NLCQ3	NLCQ4	NLCQ5	NLCQ6	NLCQ7	NLCQ8	NLC07
Material	β-BBO (beta-BaB₂O₄)
Crystal Thickness	1.00 mm	2.00 mm	3.00 mm	1.00 mm	2.00 mm	3.00 mm	3.00 mm	3.00 mm	3.00 mm
Crystal Thickness Tolerance	±0.05 mm			±0.05 mm			±0.05 mm	±0.05 mm	±0.05 mm
Angle of Optic Axis^a (θ)	29.2°			41.8°			26.9°	22.2°	19.8°
Optic Axis Angle^a (θ) Tolerance	±0.5°			±0.5°			±0.5°	±0.5°	±0.5°
Application	Type-I SPDC			Type-II SPDC			Type-I SPDC	Type-I SPDC	Type-I SPDC
Collinear vs Noncollinear	Both			Both			Collinear	Collinear	Collinear
Pump Wavelength at AOI = 0°	405 nm			405 nm			405 nm	532 nm	775 nm
Signal Wavelength at AOI = 0°	810 nm			810 nm			586 nm	810 nm	1550 nm
Idler Wavelength at AOI = 0°	810 nm			810 nm			1310 nm	1550 nm	1550 nm
Angle of Incidence Tuning Sensitivity^b
AR Coating, Entrance Face, 0° AOI	R<0.5% at 405 and 810 nm						R<0.5% at 405 nm	R<1% at 532 nm	R_avg<4% 650 - 850 nm and 1300-1700 nm
AR Coating, Exit Face, 0° AOI	R<0.5% at 405 and 810 nm						R<3% at 586 and 1310 nm	R<2.5% at 810 and 1550 nm	R_avg<4% 650 - 850 nm and 1300-1700 nm
AR Coating Curves	Raw Data						Raw Data	Raw Data	Raw Data
Laser Induced Damage Threshold	9.5 J/cm² (532 nm, 5.3 ns, 100 Hz, Ø218 μm)								0.6 J/cm² (1550 nm, 52 fs FWHM, S-Pol, 10⁴ Pulses)
Aperture Diameter	Ø5.0 mm
Clear Aperture	>Ø4.0 mm
Mounted Diameter	1" (25.4 mm)
Surface Quality	20-10 Scratch-Dig
Transmitted Wavefront Error	λ/3 @ 632.8 nm Over Clear Aperture

Angle Between the Surface Normal and the Optic Axis of the Crystal
These plots are theoretical calculations intended to provide guidance on the sensitivity to tuning. The numerical values will depend on the details of your application.

Physical and Optical Properties
Material		β-BBO (beta-BaB₂O₄)
Crystal Structure		Trigonal, Space Group R3c
Transparency Range		189 - 3500 nm
Second-Order Nonlinear Coefficients		d21 = 2.2 pm/V d31 = 0.08 pm/V d22 = 2.2 pm/V
Nonlinear Refractive Index (Kerr Index)^a		4.9 x 10⁻²⁰ m²/W @ 1032 nm
Sellmeier Coefficients^b	Ordinary Ray
Sellmeier Coefficients^b	Extraordinary Ray
Thermal Conductivity		1.2 W / m ⋅ K (⊥ C) 1.6 W / m ⋅ K (\|\| C)
Mohs Hardness		4.5 Mohs
Density		3.85 g/cm³

M. Bache, H. Guo, B. Zhou, and X. Zeng, "The anisotropic Kerr nonlinear refractive index of the beta-barium borate (β-BaB₂O₄) nonlinear crystal," Optical Materials Express,& 3(3), 357-382 (2013).
G. Tamošauskas, G. Beresnevicius, D. Gadonas, and A. Dubietis, "Transmittance and phase matching of BBO crystal in the 3 − 5 μm range and its application for the characterization of mid-infrared laser pulses," Optical Materials Express, 8(6), 1410-1418 (2018).

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BBO Crystals: Type-I SPDC, 405 nm Pump and 810 nm Signal/Idler

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Key Specifications for SPDC Applications^a
Item #		NLCQ1	NLCQ2	NLCQ3
Crystal Thickness		1.00 mm	2.00 mm	3.00 mm
Angle of Optic Axis (θ)^b		29.2° ± 0.5°
Application		Type-I SPDC
AR Coating (AOI = 0°)		R<0.5% at 405 and 810 nm
AR Coating Curves		Raw Data
Pump Wavelength (2ω)	AOI = 0°	405 nm
SPDC Signal / Idler Wavelength (1ω)	AOI = 0°	810 nm / 810 nm

See the Specs tab for complete specifications.
Angle Between the Crystal's Surface Normal and the Optic Axis

Mounted Crystal with Antireflection (AR) Coating for 405 nm and 810 nm
Optic Axis Angle of 29.2°
Cut for a 405 nm Pump Wavelength and 810 nm Signal/Idler Wavelength at Normal Incidence

These β-BBO crystals are designed to produce 810 nm Type-I SPDC emission from an input beam with a center wavelength of 405 nm. They are available with thicknesses of 1.00, 2.00, or 3.00 mm and feature an AR coating to reduce surface reflections over the pump, signal, and idler wavelength ranges. These mounted crystals can be pumped with nanosecond lasers like Item # NPL41B, the frequency doubled output of Ti:sapphire lasers such as our TIBERIUS and OCTAVIUS lasers, or a 405 nm diode laser such as Item # L405P20.

BBO Crystals: Type-II SPDC, 405 nm Pump and 810 nm Signal/Idler

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Key Specifications for SPDC Applications^a
Item #		NLCQ4	NLCQ5	NLCQ6
Crystal Thickness		1.00 mm	2.00 mm	3.00 mm
Angle of Optic Axis (θ)^b		41.8° ± 0.5°
Application		Type-II SPDC
AR Coating (AOI = 0°)		R<0.5% at 405 and 810 nm
AR Coating Curves		Raw Data
Pump Wavelength (2ω)	AOI = 0°	405 nm
SPDC Signal / Idler Wavelength (1ω)	AOI = 0°	810 nm / 810 nm

See the Specs tab for complete specifications.
Angle Between the Crystal's Surface Normal and the Optic Axis

Mounted Crystal with Antireflection (AR) Coating for 405 nm and 810 nm
Optic Axis Angle of 41.8°
Cut for a 405 nm Pump Wavelength and 810 nm Signal/Idler Wavelength at Normal Incidence

These β-BBO crystals are designed to produce 810 nm Type-II SPDC emission from an input beam with a center wavelength of 405 nm. They are available with thicknesses of 1.00, 2.00, or 3.00 mm and feature an AR coating to reduce surface reflections over the pump, signal, and idler wavelength ranges. These mounted crystals can be pumped with nanosecond lasers like Item # NPL41B, the frequency doubled output of Ti:sapphire lasers such as our TIBERIUS and OCTAVIUS lasers, or a 405 nm diode laser such as Item # L405P20.

BBO Crystals: Type-I SPDC, 405 nm Pump, 586 nm Signal, and 1310 nm Idler

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Key Specifications for SPDC Applications^a
Item #		NLCQ7
Crystal Thickness		3.00 mm
Angle of Optic Axis (θ)^b		26.9° ± 0.5°
Application		Type-I SPDC
AR Coating (AOI = 0°)		R<0.5% at 405 nm R<3% at 586 and 1310 nm
AR Coating Curves		Raw Data
Pump Wavelength (2ω)	AOI = 0°	405 nm
SPDC Signal / Idler Wavelength (1ω)	AOI = 0°	586 nm / 1310 nm

See the Specs tab for complete specifications.
Angle Between the Crystal's Surface Normal and the Optic Axis

Mounted Crystal with Antireflection (AR) Coating for 405 nm, 586 nm, and 1310 nm
Optic Axis Angle of 26.9°
Cut for a 405 nm Pump Wavelength and 586/1310 nm Signal/Idler Wavelength at Normal Incidence

This β-BBO crystal is designed to produce 586 nm and 1310 nm Type-I SPDC emission from an input beam with a center wavelength of 405 nm. It is available with a thicknesses of 3.00 mm and features an AR coating to reduce surface reflections over the pump, signal, and idler wavelength ranges. This mounted crystal can be pumped with nanosecond lasers like Item # NPL41B, the frequency doubled output of Ti:sapphire lasers such as our TIBERIUS and OCTAVIUS lasers, or a 405 nm diode laser such as Item # L405P20.

BBO Crystals: Type-I SPDC, 532 nm Pump, 810 nm Signal, and 1550 nm Idler

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Key Specifications for SPDC Applications^a
Item #		NLCQ8
Crystal Thickness		3.00 mm
Angle of Optic Axis (θ)^b		22.2° ± 0.5°
Application		Type-I SPDC
AR Coating (AOI = 0°)		R<1% at 532 nm R<2.5% at 810 and 1550 nm
AR Coating Curves		Raw Data
Pump Wavelength (2ω)	AOI = 0°	532 nm
SPDC Signal / Idler Wavelength (1ω)	AOI = 0°	810 nm / 1550 nm

See the Specs tab for complete specifications.
Angle Between the Crystal's Surface Normal and the Optic Axis

Mounted Crystal with Antireflection (AR) Coating for 532 nm, 810 nm, and 1550 nm
Optic Axis Angle of 22.2°
Cut for a 532 nm Pump Wavelength and 810/1550 nm Signal/Idler Wavelength at Normal Incidence

This β-BBO crystal is designed to produce 810 nm and 1550 nm Type-I SPDC emission from an input beam with a center wavelength of 532 nm. It is available with a thicknesses of 3.00 mm and features an AR coating to reduce surface reflections over the pump, signal, and idler wavelength ranges. This mounted crystal can be pumped with frequency doubled lasers at 532 nm and diode-pumped solid state lasers such as our Item # DJ532-40.

BBO Crystals: Type-I SPDC, 775 nm Pump, 1550 nm Signal/Idler

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Key Specifications for SPDC Applications^a
Item #		NLC07
Crystal Thickness		3.00 mm
Angle of Optic Axis (θ)^b		19.8° ± 0.5°
Application		Type-I SPDC
AR Coating (AOI = 0°)		R_avg<4%, 650 - 850 nm and 1300-1700 nm
AR Coating Curves		Raw Data
Pump Wavelength (2ω)	AOI = 0°	775 nm
SPDC Signal / Idler Wavelength (1ω)	AOI = 0°	1550 nm / 1550 nm

See the Specs tab for complete specifications.
Angle Between the Crystal's Surface Normal and the Optic Axis

Mounted Crystal with Antireflection (AR) Coating for 775 nm and 1550 nm
Optic Axis Angle of 19.8°
Cut for a 775 nm Pump Wavelength and 1550 nm Signal/Idler Wavelength at Normal Incidence

This β-BBO crystal is normally used for second harmonic generation (SHG) but in the reverse process also produces 1550 nm Type-I SPDC emission from an input beam with a center wavelength of 775 nm. It is available with a thicknesses of 3.00 mm and features an AR coating to reduce surface reflections over the pump, signal, and idler wavelength ranges. This mounted crystal can be pumped with a Ti:sapphire laser, such as our TIBERIUS and OCTAVIUS lasers, a frequency doubled 1550 nm laser like Item # FSL1550, or diode lasers like Item # DBR780PN. This crystal can also be found on the BBO Crystals for Second Harmonic Generation page.