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Simple description:
BaTiO3 crystals possesses excellent photorefractive properties, with high self-pumped phase conjugate reflectivity and two-wave mixing ( amplification) efficiency, which has great potential for application in optical information storage; at the same time, it is also an important substrate material.
Advantages:High Dielectric Constant, Excellent Optical Properties, High Thermal Stability, Good Piezoelectric Properties
Application fields:Electronic Components, Optical Devices, Microwave Dielectric Ceramics, prepare catalysts, ceramic glazes, fillers for plastics and rubbers, etc.
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2-300x300.jpg "铝酸镁(MgAl2O4)2")
Simple description:
Calcium tantalum gallium silicate crystals, specifically Calcium Gallium Tantalum Silicate (Ca3TaGa3Si2O14, CTGS), are crystalline materials with unique physical and chemical properties. Their crystal structure is composed of gallium silicate ions and calcium tantalum ions, exhibiting high charge density and electron cloud polarization effects. These properties contribute to the high ionic bond strength and stiffness of calcium tantalum gallium silicate crystals. Additionally, the chemical composition of these crystals contains tantalum, an element with a high number of electrons and atomic mass, further enhancing the stiffness of the crystals.
Advantages: High Stiffness, Excellent Mechanical Stability, Piezoelectric Properties, Biocompatibility
Application fields: Optical Field, Electronics Field, Medical Field, Sensor Technology Field:
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Simple description:
The lanthanum gallium niobium oxide (LGN, La3Ga5.5Nb0.5O14) crystal is a novel inorganic non-metal material with unique physical and chemical properties. It belongs to the trigonal crystal system and possesses a non-centrosymmetric crystal structure, which enables it to exhibit excellent performance in piezoelectric, electro-optic, and nonlinear optical applications.
Advantages:High Thermal Stability and Mechanical Strength, Excellent Piezoelectric Properties, Good Electro-optic Properties, Wide Transmission Band, Superior Nonlinear Optical Properties
Application fields:Piezoelectric Applications, Electro-optic Applications, Nonlinear Optical Applications
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Simple description:
The chemical formula of lanthanum gallium silicate is La3Ga5SiO14, and its crystal structure is trigonal. has a high density (about 5.75g/cm³, some data is 5.754g/cm³), a high melting point1470℃), and a high Mohs hardness (about 6.5, some data is 6.6). These physical properties make lanum gallium silicate exhibit good stability and durability in various application environments.
Advantages:High Thermal Stability, Low Thermal Expansion Coefficient, High Damage Threshold, Excellent Electro-optic Performance, Good Piezoelectric Properties, Good Chemical and Physical Stability, Customizable
Application fields:Electro-optic Q-switch, Surface Acoustic Wave (SAW) Devices, Bulk Acoustic Wave (BAW) Devices, High-power all-solid-state laser, High-temperature sensors
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Simple description:
Langatate (LGT), with the chemical formula of La3Ga5.5Ta0.5O14, is a novel non-ferroelectric piezoelectric crystal that exhibits a range of unique physical and chemical properties.
Advantages:High Electromechanical Coupling Factor, Phase Stability, High Resistivity, Excellent Piezoelectric Properties, Good Optical Properties, Ease of Preparation
Application fields:Intermediate Frequency Filters, High-Temperature Sensors, Surface Acoustic Wave (SAW) Devices, Acoustic Resonators, Piezoelectric Sensors, Nonlinear Optical Devices
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Wide Transmission Spectrum: 350 nm to 5200 nm.
Birefringence: Due to its non-centrosymmetric crystal structure, allowing the splitting of incident light into two orthogonal polarization states.
Excellent Optical Properties: Low optical absorption and high damage threshold.
Piezoelectric and Electro-optic Properties: Ideal for various technological applications.
Low Production Cost: Economically feasible for large-scale manufacturing.
Applications: Polarizing Optics, Fiber Communication, Nonlinear Optics, Electro-optic Devices, etc.
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LiTaO₃ is a crystal material with excellent electro-optic, piezoelectric, and nonlinear optical, and is often used in optical communication, electro-optic modulators, lasers, and surface acoustic wave devices.
Main advantages: Strong electro-optic effect, High piezoelectric coefficient, Good thermal stability, Wide transmission range
Application field: Optical Communication, Precision Sensing, Aser Technology, Medical Devices, Acoustic Surface Wave
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Simple description:
PMN-PT (Lead Magnesium Niobate-Lead Titanate) crystals are relaxor ferroelectric solid solution single crystals with a perovskite structure (ABO3). Their chemical formula is (1-x)Pb(Mg1/3Nb2/3)O3-xPbTiO3, where x represents the molar fraction of lead titanate (PbTiO3) in the solid solution. This type of crystal is generally regarded as a solid solution of lead magnesium niobate [Pb(Mg1/3Nb2/3)O3] and lead titanate.
Advantages: High Piezoelectric Performance, Large Electromechanical Coupling Coefficient, High Dielectric Constant, Low Loss, Excellent Nonlinear Optical Properties, Good Pyroelectric Properties, Wide Range of Applications
Application fields: Ultrasonic Transducers, Sensors, Piezoelectric Motors, Nonlinear Optical Devices, Photodetection Devices
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Broad Transparency Range: 0.2 μm to 3.5 μm.
High Internal Crystalline Perfection: Ensures superior optical quality.
Excellent Optical Homogeneity: Provides uniform optical properties.
Exceptional Mechanical Properties: Durable and resistant to deformation.
Low Thermal Expansion: Minimizes thermal-induced changes.
High Machinability: Facilitates precision engineering of optical components.
Chemical Resistance: Durable against corrosion and deliquescence.
Superior Refractive Characteristics: Ideal for waveplates and polarizing optics.
Applications: Waveplates, Polarizing Optics, Optical Components, Precision Instruments, etc.
