Home  >  Wavelengths 1310nm-1690nm  >  Denselight  >  contact manufacturer

 

1310nm, 40mW Superluminescent Laser Diode

Quotes and/or orders for this item are currently NOT AVAILABLE through LaserDiodeSource.com; please contact the Manufacturer

  • no-image-available-icon-4-5
  • RLS/DL-CS3404A 1310nm 40mw butterfly packaged laser diode denselight image1
  • RLS/DL-CS3404A 1310nm 40mw butterfly packaged laser diode denselight image2
  • RLS/DL-CS3404A 1310nm 40mw butterfly packaged laser diode denselight image3
  • RLS/DL-CS3404A 1310nm 40mw butterfly packaged laser diode denselight image4

Request Quote  
sku / item#: contact manufacturer
ships: contact manufacturer

Key Features
  • contact manufacturer

Price and Delivery Quote

Technical Questions for this Product

ASK AN ENGINEER

Customers Also Considered:

Why do Scientists & Engineers Choose Laser Lab Source?

MODEL contact manufacturer
PRICE Request Price
OVERVIEW
  • Ex-fiber output power > 40mW
  • 3dB bandwidth of >40nm
  • Spectral modulation of <0.5dB
  • 14-pin BTF package
  • SM fiber
APPLICATION S
  • Fiber Optic Gyroscope
  • Optical Test Instrument
  • Fiber Optic Sensors
  • Fiber Optic Communications
  • Optical Coherence Tomography
  • Biomedical Imaging Device
  • Clinical Healing Equipment

Product Overview:

These laser diodes are broadband SLED's that operate in a true inherent superluminescent mode. This superluminescent property generates broader band at higher drive currents in contrast to other conventional SLEDs which are ASE-based, where high drive tends to give narrower band. Its low coherence reduces Rayleigh backscattering noise. Coupled with high power and large spectral width, it offsets photoreceiver noise and improves spatial resolution (in OCT) and measurand sensitivity (in sensors). These laser diodes are available in 14-pin BTF package and are compliant with the requirements of Bellcore Document GR-468-CORE. Enabled by DensePICTM spread spectra bandgap engineering technology, future generations of DenseLight SLEDs promise higher chip powers (up to 50mW possible), and broader spectral bands (beyond 120nm). Higher levels of integration may feature integrated SLEDs with phase modulators, optical couplers and photodetectors into a complete optical sensor chipset.

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