Laser Diodes, Modules

Laser Diodes, Modules - Accessories

Image	Part Number	Description / PDF	Quantity	Rfq
	8450-205-300-2 Excelitas Technologies	LM0202 INTENSITY MODULATOR, 950-	0
	G340097400 Excelitas Technologies	PL. MIRROR RAGV; D=63; D=10; L/1	0
	8450-202-901-7 Excelitas Technologies	LM13 INTENSITY MODULATOR, 700-95	0
	G311377000 Excelitas Technologies	BICONVEXL.; N-BK 7; D=12.5; F=12	0
	8451-101-000-09 Excelitas Technologies	FI-1120-5SC FARADAY ISOLATOR	0
	8450-206-200-00 Excelitas Technologies	DIV 20 INCL. CABLE AND ADAPTER	0
	G340761000 Excelitas Technologies	LASER MIRROR DLHS1064; FUSED SIL	0
	8451-101-000-43 Excelitas Technologies	FI-1210-3SC FARADAY ISOLATOR	0
	8450-204-000-0 Excelitas Technologies	LASER MODULATOR LM 0202 0.1W	0
	G340741000 Excelitas Technologies	LASER MIRROR DLHS353; FUSED SILI	0
	8450-203-500-0 Excelitas Technologies	LM13 PHASE MODULATOR, 400-850 NM	0
	8450-205-600-0 Excelitas Technologies	LM0202 PHASE MODULATOR, 400-850	0
	G340662000 Excelitas Technologies	PL. MIRROR RAGV; BXL=60X85; D=8;	0
	G340380000 Excelitas Technologies	PL. MIRROR RAL; D=10X14 OVAL; D=	0
	8450-204-900-1 Excelitas Technologies	LM0202 UNIVERSAL MODULATOR, 650-	0
	8450-205-000-5 Excelitas Technologies	LM0202 UNIVERSAL MODULATOR, 400-	0
	8450-301-200-1 Excelitas Technologies	LM 10 IM POCKELS CELL	0
	G065233907 Excelitas Technologies	PINHOLE 0.05 MM, MOUNTED M16	0
	8450-200-800-0 Excelitas Technologies	LM0202 PHASE MODULATOR, 400-650	0
	G340082332 Excelitas Technologies	PL. MIRROR RAL-UV; D=12.7; D=2.5	0

Laser Diodes, Modules - Accessories

1. Overview

Laser diodes and modules accessories are critical components in optoelectronics, enabling the generation, modulation, and control of laser light. Laser diodes (LDs) are semiconductor devices that emit coherent light through stimulated emission, while modules integrate LDs with additional components like drivers, optics, and thermal management systems. Accessories such as mounts, collimators, and protective housings enhance functionality. These components are indispensable in telecommunications, medical devices, industrial processing, and consumer electronics due to their efficiency, compactness, and precision.

2. Major Types and Functional Classification

Type	Functional Features	Application Examples
Laser Diodes (LDs)	Single/multi-mode emission, wavelength ranges from UV to IR	Fiber optic communication, laser printers
Laser Modules	Integrated drivers, built-in optics, temperature control	LiDAR systems, barcode scanners
Driver Circuits	Current stabilization, modulation capabilities	High-speed data transmission, pulse applications
Thermal Management	TEC coolers, heat sinks	High-power industrial lasers, medical devices
Optical Accessories	Collimators, beam shapers, filters	Material processing, spectroscopy

3. Structure and Composition

A typical laser diode consists of an active layer (GaAs/InP-based materials), cleaved facets forming an optical resonator, and metal contacts. Modules add components like thermoelectric coolers (TECs), photodiode monitors, and aspheric lenses. Accessories often use aluminum alloys for mounts, fused silica for optics, and polymer housings for protection. High-power systems integrate water-cooling channels and precision alignment mechanisms.

4. Key Technical Parameters

Parameter	Description	Importance
Wavelength (nm)	Emission spectrum range (e.g., 405-1550nm)	Determines material compatibility and application
Output Power (mW-W)	Continuous wave (CW) or pulsed power	Dictates processing speed and transmission distance
Beam Quality (M )	Measure of divergence from ideal Gaussian beam	Affects focusing precision
Wall-Plug Efficiency (%)	Electrical-to-optical conversion rate	Impacts power consumption and thermal load
Operating Temperature ( C)	Specified temperature range for stable operation	Determines environmental adaptability

5. Application Fields

Telecommunications: Fiber amplifiers, DWDM systems
Medical: Surgical lasers, optical coherence tomography (OCT)
Industrial: Cutting/welding machines, 3D printing
Consumer Electronics: Laser projectors, VR/AR headsets
Scientific: Spectroscopy, interferometry

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Specifications
Lumentum	LD-XXYY Series	1550nm, 500mW, 10Gbps modulation
II-VI Incorporated	915-0010-000	915nm, 100W, fiber-coupled
Coherent	OBIS LX 561	561nm, 140mW, TEM00 mode
OSRAM	PLT5 4FB	638nm, 1.2W, automotive LiDAR

7. Selection Guidelines

Key considerations include:

Wavelength compatibility with target material or system
Power requirements with 20% safety margin
Thermal management for rated output stability
Optical interface standards (e.g., FC/APC connectors)
Environmental certifications (IP rating, RoHS compliance)

Industry Trends

Future development focuses on higher power density (100W+ diodes), wavelength stabilization for 5G applications, and chip-scale integration. Advances in gallium nitride (GaN) and quantum cascade laser (QCL) technologies are enabling UV and terahertz applications. The market is driven by autonomous vehicle LiDAR systems and data center interconnects, with projected CAGR of 12.3% (2023-2030) according to Yole D veloppement.