1.1% doping Nd:YAG laser crystal for Solid-state Lasers

Nd:YAG Crystal

The 1.1% doped Nd:YAG laser crystal is the most commonly used material for solid-state lasers.
Wide doping range: 0.1-2.0 atm%.
CRYSMIT's Nd:YAG with different end cuts (plano/plano, wedge/wedge, Brewster cut, etc.)
Nd:YAG rods refurbishing service (re-polishing and re-coating) available.
Coating Options: AR@1064nm, PR@1064nm and HR@1064nm, HR@1064&HT@808nm, HR@1064&HR@532nm.
Custom coating is available.

Inquire for custom product

General Product

Description

Specification

Literature

Part No.

Doping

Diameter

Length

Wedge

Coating

Material

Delivery

Price

Add to CART

Part No.	Doping	Diameter	Length	Wedge	Coating	Material	Delivery	Price	Add to CART
Nd:YAG Crystal 01	0.009	Ø3 mm	53 mm	0/0	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$80
Nd:YAG Crystal 02	0.011	Ø3 mm	60 mm	0/0	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$80
Nd:YAG Crystal 03	0.008	Ø3 mm	65 mm	0/0	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$80
Nd:YAG Crystal 04	0.011	Ø3 mm	65 mm	0/0	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$80
Nd:YAG Crystal 05	0.008	Ø4 mm	65 mm	3/3 parallel	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$90
Nd:YAG Crystal 06	0.011	Ø4 mm	65 mm	3/3 parallel	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$90
Nd:YAG Crystal 07	0.011	Ø4 mm	80 mm	0/0	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$90
Nd:YAG Crystal 08	0.011	Ø5 mm	90 mm	0/0	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$100
Nd:YAG Crystal 09	0.011	Ø5 mm	100 mm	0/0	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$100
Nd:YAG Crystal 10	0.011	Ø6.35 mm	85 mm	3/3 parallel	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$100
Nd:YAG Crystal 11	0.011	Ø8 mm	85 mm	3/3 parallel	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$100
Nd:YAG Crystal 12	0.011	Ø10 mm	85 mm	3/3 parallel	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$110
Nd:YAG Crystal 13	0.008	Ø12 mm	100 mm	3/3 parallel	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$120
Nd:YAG Crystal 14	0.011	Ø12 mm	100 mm	3/3 parallel	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$120
Nd:YAG Crystal 15	0.011	3x3 mm	5 mm	0/0	AR/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$120
Nd:YAG Crystal 16	0.011	3x3 mm	2 mm	0/0	HR@1064 nm+HT@808nm/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$100
Nd:YAG Crystal 17	0.011	3x3 mm	3 mm	0/0	HR@1064 nm+HT@808nm/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$100
Nd:YAG Crystal 18	0.011	3x3 mm	5 mm	0/0	HR@1064 nm+HT@808nm/AR@1064nm	Neodymium Doped Yttrium Aluminum Garnet	2 weeks	$120

Nd:YAG laser crystals (Neodymium Doped Yttrium Aluminum Garnet) are widely recognized as the preferred choice of a lasing medium for solid-state lasers. Good fluorescence lifetime, thermal conductivity and robust nature make Nd:YAG laser crystals suitable for high power continuous wave, high intensity Q-switched and single mode operation. CRYSMIT offers the standard Nd:YAG rods with AR coating at 1064nm and the customized rods or crystals upon customer's special request.

BBO crystals and LBO crystals are used as nonlinear optical elements in Nd:YAG laser systems for frequency conversion and wavelength manipulation. BBO crystals achieve frequency doubling, converting infrared light from Nd:YAG lasers into visible or ultraviolet light. LBO crystals also perform frequency doubling and enable sum frequency generation for tunable output. The integration of these crystals enhances the versatility and applications of Nd:YAG lasers in diverse fields, including spectroscopy, microscopy, laser displays, and remote sensing.

Basic Properties

Crystal Structure	Cubic
Lattice Parameter	12.01 Å
Density	4.5 g/cm3
Melting Point	1970℃
Reflective Index	1.82
Mohs Hardness	8.5 Mohs
Thermal Expansion Coefficient	7.8 × 10-6 /K <111＞, 0 - 250℃
Thermal Conductivity	14 W/cm/K, 20℃
Thermal Conductivity	10.5 W/cm/K, 100℃
Stimulated Emission Cross-section	2.8 × 10-19 cm-2
Relaxation Time of Terminal Lasing Level	30 ns
Fluorescent Lifetime	550 µs
Spontaneous Fluorescence	230 µs
Linewidth	0.6 nm
Loss Coefficient	0.003 cm-1 @1064 nm

Optical Parameter of Nd:YAG crystal

Diameter (mm)	Standard grade	Excellent grade	Super-excellent grade
Φ3-6.35	＜0.5fringes/inch	＜0.25fringes/inch	0.1fringes/inch
Φ3-6.35	＞25dB	＞28dB	＞30dB
Φ7-10	＜0.7fringes/inch	＜0.4fringes/inch	＜0.16fringes/inch
Φ7-10	＞22 dB	＞25 dB	＞28dB
Φ11-13	＜1fringes/inch	＜0.6fringes/inch	＜0.2fringes/inch
Φ11-13	＞20 dB	＞23 dB	＞26 dB
Φ14-16	＜ 1.2fringes/inch	＜ 0.8fringes/inch	＜ 0.25fringes/inch
Φ14-16	＞18 dB	＞ 20 dB	＞23 dB

Dopant Concentration	Nd: 0.3~2.0 (± 0.1) atm%
Dimension	size up to dia.15×180mm
Surface Quality (Scratch/Dig)	10/5 to MIL-PRF-13830B
Wavefront Distortion	λ/8 @633 nm
Flatness	λ/8 @633 nm
Parallelism	20 arc sec
Perpendicularity	＜ 15 arc min
Chamfer	＜ 0.2 mm×45°
HR Coating	R ＞ 99.8% @1064 nm, R < 5% @808nm
Other HR Coatings, such as HR-1064/532 nm, HR-946 nm, HR-1319 nm and other wavelengths are available.
Damage Threshold	＞500 MW/cm2 @1064 nm,10 ns,10 Hz

Superior performance of a 2 kHz pulse Nd:YAG laser based on a gradient-doped crystal

Meng’en Wei, Tingqing Cheng, Renqin Dou, Qingli Zhang, and Haihe Jiang

High-power green-beam generation in continuous-wave modes by use of long KTiOPO4 crystals with a Nd:YAG laser

Tetsuo Kojima and Koji Yasui

Long-term stable, high-pulse-energy fourth harmonic generation of Nd: YAG laser with large Li2B4O7 crystals

Zhenlin Liu, Toshimasa Kozeki, Yuji Suzuki, Nobuhiko Sarukura, Masahiro Hirano, and Hideo Hosono

Effect of biocompatible nucleants in rapid crystallization of natural amino acids using a CW Nd:YAG laser

Shilpa Thippeshappa, Sajan D. George, Aseefhali Bankapur, Santhosh Chidangil, Deepak Mathur & Abdul Ajees Abdul Salam

Nonresonant power efficient directional Nd：YAG ceramic laser using a scattering cavity.pdf

11-GHz waveguide Nd:YAG laser CW mode-locked with single-layer graphene

Andrey G. Okhrimchuk & Petr A. Obraztsov