Name: 632.8nm Fiber-Coupled Frequency Stabilized Laser Diode
SKU: 33-046
Price: €9.030,00

632.8nm Fiber-Coupled Frequency Stabilized Laser Diode

632.8nm Frequency Stabilized Laser Diodes (Free Space and Fiber-Coupled options shown)

Stock #33-046 3-4 days

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€9.030,00

Qty 1-5
€9.030,00

Qty 6+
€8.130,00

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Output Power Tolerance (%):

±20

Electrical Leads/ Pin Connections:

10-pin Connectors (cable provided upon request)

Length of Fiber (m):

Noise Level:

10 Hz - 100 MHz: 0.2% RMS

Input Current (A):

Max: 2 @ 3.3 V

Spectral Line Width (MHz):

Typical: 10

Beam Stability (nm):

±0.002

Product Details

Fiber Cable Type:

Single Mode w/3mm Dia Stainless Steel Shielding

Type of Laser:

Diode

Physical & Mechanical Properties

Dimensions (mm):

71.0 L x 63.5 W x 19.8 H

Weight (g):

135.00

Optical Properties

Numerical Aperture NA:

0.13

Fiber Diameter (μm):

4.3 MFD

Wavelength (nm):

632.80

Wavelength Tolerance (nm):

±0.5

Color:

Red

Performance

Output Power (mW):

Power Stability (%):

1.00

Power Consumption (W):

Max: 5

Warm-Up Time (minutes):

2.00

Pointing Stability (μrad):

<50 (8 Hours)

Hardware & Interface Connectivity

Computer Interface:

USB

Output Type:

Fiber-Coupled

Connector:

FC/APC

Environmental & Durability Factors

Operating Temperature (°C):

+15 to +40

Operating Humidity:

5 - 95% (non-condensing)

Additional Info

Laser Class - CDRH:

IIIb

Regulatory Compliance

RoHS:

Compliant

Certificate of Conformance:

View

Product Family Description

Single Longitudinal Mode (SLM) Performance
±0.002nm Wavelength Stability
Very Low Power Consumption

632.8nm Frequency Stabilized Laser Diodes are ideal for typical HeNe laser applications including flow cytometry, interferometry, confocal microscopy, fluorescence excitation, and Raman spectroscopy. Whereas a comparable HeNe laser would be larger, more expensive, and consume more power, the 632.8nm Frequency Stabilized Laser Diodes feature more compact designs, ±0.002nm wavelength stability, and either greater than 60mW power (free-space model) or greater than 20mW power (fiber coupled model). Additionally, these lasers utilize Variable Bragg Gratings (VBG) to lock the 632.8nm wavelength to a 10MHz linewidth.