DlaTGS Crystal with a Pyroelectric Effect Near-Ultraviolet Nuv to The Far-Infrared

Product Details
Customization: Available
Application: Pyroelectric Sensors
Warranty: 1 Year
Manufacturer/Factory & Trading Company
Diamond Member Since 2024

Suppliers with verified business licenses

Audited Supplier

Audited by an independent third-party inspection agency

Importers and Exporters
The supplier has import and export rights
High Repeat Buyers Choice
More than 50% of buyers repeatedly choose the supplier
Years of Export Experience
The export experience of the supplier is more than 10 years
Self-branded
The supplier has 9 Self-brands, check the Audit Report for more information
to see all verified strength labels (28)
Find Similar Products

Basic Info.

Wavelengths
From The Nuv to The Far-Infrared
Certification
ISO9001
Customized
Customized
Transport Package
Carton
Specification
25.4x25.4x1
Trademark
CRYSTRONG
Origin
China
HS Code
9001909090

Product Description

DLATGS Crystal

TGS (Triglycine Sulfate) is anDLATGS crystal is a crystalline material with a pyroelectric effect, which can provide a wide range of infrared radiation from the near-ultraviolet (NUV) light edge of 0.4 μm (~750 THz) to the far-infrared spectrum of 200 μm (~1.5 THz). It has a wide range of uses in aerospace, medical, and fire safety fields.
Excellent material for use as a sensitive element in pyroelectric sensors because of its high pyroelectric coefficient, reasonably low dielectric constant, and optimal figure of merit. TGS-based pyroelectric sensors are sensitive to radiation in the wavelength range from ultraviolet to far-infrared and do not require the use of cryogen cooling. The Curie temperature point of TGS is about 47°C. By deuteration of TGS, the Curie temperature can be increased to more than 60°C. When a sufficient amount of L-alanine is incorporated into the crystal, the crystal can lock polarization-the crystals have pyroelectric properties without extra polarization. In addition, after heating the crystal above the Curie temperature, and then cooling below the Curie temperature, the pyroelectric properties can still be restored, therefore the crystal has high stability, is suitable for making pyroelectric devices with stable performance in high working temperature.

Material TGS DTGS DLATGS
Tc, °C 49 57 - 59 56 - 58
ε22v at T=25°C(f=1kHz,Ebias=5kV/cm) 20 - 40 17 - 19 17-19
δatT=25°C(f=1kHz,Ebias=5kV/cm) (3-4)x 10-3 (2-3)x10-3 (2-3)x10-3
E0 (T=25°C), V/cm <25 <25 900
γ2(dPS /dT), Goul x cm-2 x K-1 (3-4)x 10-8 (2.7-3)x10-8 3x10-8
M1 at T=25°C (dPS/dT) xε22-1 11-12 15-16 15-16

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now
Contact Supplier