Home  >  Wavelengths 900nm-1190nm  >  QD Laser  >  RLS/QLA1061-64A0


1064nm Laser Diode, 100mW

  • 1064nm 100mW SOA DFB Laser Diode Image
  • 1064nm 100mW SOA DFB Laser Diode Output Power
  • 1064nm 100mW SOA DFB Laser Diode Spectrum
  • 1064nm 100mW SOA DFB Laser Diode Specifications

Request Quote  
sku / item#: RLS/QLA1061-64A0
ships: Request

Key Features
  • High Fiber Output Power >100 mW
  • Single Longitudinal Mode Operation at 1064 nm
  • Fiber-Pigtailed 14-pin Butterfly Package with TEC
  • Integrated SOA
  • Polarization Maintaining Fiber Integration
  • Lasers Also Available at 1122 nm and 1188 nm

Price and Delivery Quote

Technical Questions for this Product


Customers Also Considered:

Why do Scientists & Engineers Choose Laser Lab Source?

PRICE Request Price
  • Threshold Current: 30 mA
  • Operating Current: 100 mA
  • Operating Voltage: 2.5 V
  • SOA Operating Current: 250 mA
  • SOA Operating Voltage: 2.5 V
  • SMSR (If = 100 mA): 40 dB
  • Refer to Datasheet for Additional Specifications

Product Overview:

1064nm, 100mW DFB Laser Diode

The QLA1061-64A0 is a distributed feedback (DFB) laser with integrated semiconductor optical amplifier (SOA) for use in seeder and sensing applications. The laser is assembled into a 14-pin butterfly package with an optical isolator and a thermo-electric cooler.

The laser output center wavelength is 1064nm (QLA1061-64A0). Other models are available at 1122nm (QLA1161-22A0), and 1188nm (QLA1161-88A0).

Features - High fiber output power >100mW
- Single longitudinal mode operation at 1064nm, 1122nm, and 1188nm
- Fiber-pigtailed 14-pin butterfly package with integrated TEC and thermistor
- Optical isolator integration
- Polarization maintaining fiber integration

Proper Handling and Operation of Diode Lasers

Diode lasers are highly susceptible to damage from ESD and from temperatures exceeding their specified safe operating range. The user is advised to use care and proper ESD safety practices when handling them to avoid damage to the laser. A properly rated low noise current source, a low thermal resistance mount and a temperature controller should be used for optimal device performance and reliability.

Why do Scientists & Engineers Choose Laser Lab Source?

  • Get DIRECT, Fast Tech-Support from the Product Engineer, No Sales Person in the Middle

  • Get the Lowest Price, Factory Direct, No Mark-Up's, Suppliers Post their Own Price

  • Get a 30 Day Evaluation Period with No Risk Return on Most Products, Check Availability