HGTR-KTP | Non-Linear Crystal

HGTR-KTP | Non-Linear Crystal is an excellent nonlinear optical material, with gray track resistance sufficiently greater than typical flux grown KTP.

Category: Non-Linear Crystal

Description

HGTR-KTP | Non-Linear Crystal is an excellent nonlinear optical material, with gray track resistance sufficiently greater than typical flux grown KTP. It is extremely suitable for both commercial and military lasers including laboratory and medical systems, range-finders, lidar, optical communication, and industrial systems.

ADVANTAGES

High damage threshold
High ability to anti-gray track
Low electrical conductivity
High conversion efficiency
High homogeneity
Low absorption

MAIN APPLICATIONS

Second harmonic generation for frequency doubling
Optical parametric oscillator
Electro-optic Pockels Cells
Quasi Phase Matching

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KRS-5 | Infrared Crystal

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KRS-5 | Infrared Crystal (thallium bromo-iodide (KRS-5)) is mixed by thallium bromide and thallium iodide crystals, containing non hygroscopic properties, and has a wide infrared transmission range.

Category: Infrared Crystal

Description

KRS-5 | Infrared Crystal (thallium bromo-iodide (KRS-5)) is mixed by thallium bromide and thallium iodide crystals. With non-hygroscopic properties and a wide infrared transmission range, especially in the air, it can transmit quite a wide infrared wavelength range from 0.5 to 40μm. In addition, its transmission can reach above 70 percent, making it an ideal infrared material.

MAIN APPLICATIONS

Infrared optical windows
Prisms
Lenses
Fourier infrared spectrometer window
Etc.

Technical Specifications

Crystal	KRS-5
Density	7.371g/cm3
Melting Point	412°C
Refractive index	2.37@10μm
Hardness	40Kg/mm
Young modulus	26Mpa
Thermal expansivity	58 10-6/°C
Wavelength range	0.5~40μm
Transmission	70%
Hygroscopicity	None

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KTA | Non-Linear Crystal

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KTA | Non-Linear Crystal is an excellent nonlinear optical crystal for OPO applications.

Category: Non-Linear Crystal

Description

KTA | Non-Linear Crystal is an excellent nonlinear optical crystal for OPO applications. OPO devices based on KTA are reliable solid-state sources of tunable laser radiation exhibiting energy conversion efficiencies above 50%. In addition, KTA has a very high damage threshold and lower absorption in the 3-4 µm spectrum range than KTP.

ADVANTAGES

Large nonlinear optical and electro-optical coefficient
Wide angular bandwidth and small walk-off angle
Temperature and spectral bandwidth
Low dielectric constant, loss tangent, and ionic conductivities
High damage threshold
Highly resistant to high-intensity laser radiation

MAIN APPLICATIONS

An excellent NLO crystal developed mainly for Optical Parametric Oscillation
Frequency doubling (SHG@1083nm~3789nm)
Sum and difference frequency generation
Electro-optical Q-switch and modulation for optical waveguides

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KTP | Non-Linear Crystal

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KTP | Non-Linear Crystal is the most widely used material for frequency doubling of YAG(Nd) and other Nd-doped lasers.

Category: Non-Linear Crystal

Description

KTP | Non-Linear Crystal is the most widely used material for frequency doubling of YAG(Nd) and other Nd-doped lasers, particularly when the power density is at a low or medium level. Extra and intra cavity frequency doubled Nd lasers using KTP have become a preferred pumping source for visible dye lasers and tunable Sapphire(Ti) lasers, as well as their amplifiers. It is also a useful green source for many research and industry applications.

ADVANTAGES

Large nonlinear optical coefficient
Wide angular bandwidth and small walk-off angle
Broad temperature and spectral bandwidth
High electro-optic coefficient and low dielectric constant
Large figure of merit
Minimum mismatch gradient
Nonhydroscopic
Chemically and mechanically stable

MAIN APPLICATIONS

Frequency doubling (SHG) of Nd-doped lasers for green/red light generation
Frequency mixing (SFM) of Nd laser and diode laser for blue light generation
Parametric sources (OPG, OPA and OPO) for 0.6um-4.5um tunable output
E-O modulators, optical switches, directional couplers
Optical waveguides for integrated NLO and E-O devices
Etc.

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LaBr₃(Ce) | Scintillation Crystal

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LaBr₃(Ce) | Scintillation Crystal is a new scintillator that boasts high light output and excellent energy resolution, better than all other known scintillation crystals.

SKU: SCN-LABR-CE Category: Scintillation Crystal

Description

LaBr₃(Ce) | Scintillation Crystal is a new scintillator that boasts high light ouput and excellent energy resolution, better than all other known scintillation crystals.

LaBr₃(Ce) | Scintillation Crystal is a new generation of nuclear radiation detection materials. It offers excellent performance, including high energy resolution, good time resolution, high light output, good energy nonlinearity, and fast decay time. Its light yield is 1.3–1.7 times that of NaI(Tl); its decay time is 1/20–1/10 of NaI’s.; and its energy resolution is better than all other known scintillation crystals. LaCl₃(Ce) can measure the energy and time spectrum and has a wide temperature range with energy resolution consistency as well.

KEY FEATURES

High energy resolution
High light output
Fast decay time
Good energy non-linearity

MAIN APPLICATIONS

Environmental monitoring
Oil well logging
Nuclear medicine
Counterterrorism
Nuclide identification

Technical Specifications

Density	4.9–5.3 g/cm³
Melting Point	1116 K
Refractive Index	1.9
Hygroscopicity	Yes
Wavelength	380 nm
Decay Time	17–25 ns
Light Output	~63 photons/keV
Photoelectron Yield	130–170% ∝ NaI(Tl)
Energy Resolution	2.7–3.5%
Nonlinearity	≤ 4% @ 0.05–1.3 MeV
Operating Temperature	-4–347 °F (-20–175 °C)

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LaBr3(Ce) | Scintillator Detector

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LaBr3(Ce) | Scintillator Detector uses direct coupling between LaBr3 crystal and PMT, improving the time and energy efficiency.

Category: Scintillator Detector

Description

LaBr3(Ce) | Scintillator Detector utilizes LaBr3 crystal and PMT directly coupling. No optical window is needed between the crystal and PMT, improving the detection efficiency, as well as high energy resolution, time resolution, good energy nonlinearity, and fast decay time. It is widely used in the radiation detection field, energy spectrometer detectors, and high-temperature oil well logging detectors.

MAIN APPLICATIONS

Environmental monitoring
Oil well logging
Nuclear medicine
Nuclear medicine security
Counterterrorism
Nuclide identification

Technical Specifications

LaBr3(Ce) Detector Type	Gamma Energy Spectrometer
Diameter of Crystal	15-75mm
Cylindrical High	10-100mm
Peak Emission	380nm
Light Yield	50000-63000 Photons/MeV
Energy Resolution	2.6-3.2% Cs-137
Decay Time	≤20
Operating Temperature	-10~+50°C

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LaCl₃(Ce) | Scintillation Crystal

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LaCl₃(Ce) | Scintillation Crystal is a new scintillation material that offers excellent energy resolution with light yield comparable to NaI(Tl).

SKU: SCN-LACL-CE Category: Scintillation Crystal

Description

LaCl₃(Ce) | Scintillation Crystal is a new scintillation material that offers excellent energy resolution with light yield comparable to NaI(Tl).

LaCl₃(Ce) | Scintillation Crystal is a new generation of nuclear radiation detection materials. It offers excellent performance, including great energy resolution, good time resolution, nonlinearity, and fast decay time. Its light yield is equivalent to that of NaI(Tl); its decay time is 1/10 of NaI’s.; and its energy resolution is 1/2–1/3 of NaI. LaCl₃(Ce) has good mechanical properties and has a wide temperature range with energy resolution consistency as well.

KEY FEATURES

High energy resolution
High light output
Fast decay time
Good energy non-linearity

MAIN APPLICATIONS

Environmental monitoring
Oil well logging
Nuclear medicine
Counterterrorism
Nuclide identification

Technical Specifications

Density	3.85 g/cm³
Melting Point	1135 K
Refractive Index	1.9
Hygroscopicity	Yes
Wavelength	350 nm
Decay Time	≤ 28 ns
Light Output	~40 photons/keV
Photoelectron Yield	70–90% ∝ NaI(Tl)
Energy Resolution	3.5–4%
Nonlinearity	≤ 4% @ 0.05–1.3 MeV
Operating Temperature	-4–347 °F (-20–175 °C)

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LaCl3(Ce) | Scintillation Crystal

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LaCl3(Ce) | Scintillation crystal is a new generation of nuclear radiation detection materials with excellent energy and time resolutions.

Category: Scintillation Crystal

Description

LaCl3(Ce) | Scintillation Crystal is a new generation of nuclear radiation detection materials. It has high energy resolution and time resolution, good energy non-linearity, and fast decay time. Its light yield is equivalent to NaI:Tl crystal, and the decay time is 1/10 of NaI:Tl. The energy resolution is 1/2~1/3 times of NaI:Tl and it also has good mechanical properties. Additionally, LaCl3(Ce) crystal has good temperature properties and a wide temperature range with good energy resolution consistency.

MAIN APPLICATIONS

Environmental monitoring
Oil well logging
Nuclear medicine
Nuclear medicine Security
Anti-terrorist
Nuclide identification

Technical Specifications

Crystal System	Hexagonal
Decay Constant	≤28 ns
Peak Emission	350 nm
Energy Resolution	3.5~4.0%
Light Yield	~40000 Photons/MeV
Non-linearity	≤4%@0.05～1.3 MeV
Operating Temperature	-20~+175
Diameter	5~80mm
Length	10~100mm
Capsulation	Seal

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LaF3 | Infrared Crystal

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LaF3 | Infrared Crystal is an excellent optical material with high transparency in the 0.2 to 10.5μm range.

Category: Infrared Crystal

Description

LaF3 | Infrared Crystal is an excellent optical material with high transparency in the 0.2 to 10.5μm range. It is a type of cubic crystal with a melting point of 1493°C and is insoluble in water, but soluble in alcohol. It is made from lanthanum chloride, lanthanum nitrate, and hydrofluoric acid or hydrogen fluoride gas and lanthanum oxide.

MAIN APPLICATIONS

Medical field: preparation of modern medical image display technology and the requirements of the nuclear science scintillator, rare earth crystal laser materials, fluoride glass fiber optic, and rare earth infrared glass
Optical field: manufacture of arc light carbon electrodes in the lighting source
Chemical analysis field: sensing membrane for fluorine ion selective electrode, measuring fluorine ion concentration in the solution
Metallurgical industry: manufacture of special alloy and electrolytic-producing lanthanum metal

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Laser Module | Laser Source

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Laser Module | Laser Source – Hangzhou Lambda can offer series green laser module and blue laser module, red module, it can be used independently or used as OEM module and easy to be integrated into your systems for its compact package and small size.

Category: Laser Source

Description

Laser Module | Laser Source is a series of green, blue, and red laser modules. It can be used independently or used as an OEM module and it is easy to integrate into systems due to its compact package and small size. It is low cost and suitable for industrial and medical applications. The dot beam, line beam, and cross beam shapes are available for this module.

MAIN APPLICATIONS

Laser display
Laser scanning
Laser printing
Laser welding
Surveying equipment
Laser alignment and pointing
OEM use in medical systems
Etc.

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Laser Pointer | Laser Source

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Category: Laser Source

Description

KEY FEATURES

Long beam range
High brightness
High beam quality
Low price

MAIN APPLICATIONS

Education
Pointing
Fluorescence exciting
Raman spectrum
Biomedicine
Laser light show
Etc.

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Laser Safety Goggles | Laser Source

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Laser Safety Goggles | Laser Source includes eyewear for lasers according to the customer’s environment.

Category: Laser Source

Description

Laser Safety Goggles | Laser Source includes eyewear for lasers according to the customer’s environment. The optical density list in the chart is the lowest O.D in laser protection. X-Z LAB can provide higher O.D (eg: 5+, 6+, 7+) eyewear for different places.

KEY FEATURES

Light-weight protection
High optical density
Excellent visibility
Wide field of view

HGTR-KTP | Non-Linear Crystal

Description

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