MOSCOW BAUMANN STATE TECHNICAL UNIVERSITY
DEMO VERSION!!!

INTERNET LABORATORY "PLASMA SPECTROMETRY AND PLASMA NANOTECHNOLOGIES"

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EQUIPMENT

   Spectrometer

   Optical behch design

   Optical resolution

   CCD-detector

   Microprocessor board

   Fibre optic cable

   Collimating lens

   Objects of research

   AVALight lamp

   Halogen and deuterium lamps

SPECTROMETER CONTROL PARAMETERS

   Optical channels

   Smoothing

   Integration time

   Average

   Correct for dynamic dark

   Saturation detection levels

TRAININGS

   Technics and practice of spectrofotometry

   The qualitative analysis of radiation spectrum

   Definition of the Electronic Temperature in Plasma

PLASMA NANOTECHNOLOGIES

   Plasma facility for nanotechnologies

   Experiment scheme

   Plasma spatial scanning

   Working gas mixture pressure and composition control

   Control interface
 
Fibre optic cable
The use of fiber optics as light guidance allows a great modularity and flexibility in the setup of an optical measurement system. Optical fibers can be made of many materials, such as plastic, glasses and silicates (SiCb). For high quality fiber optics, as used in spectroscopic applications, synthetic fused silica (amorphous silicon dioxide) is used, that can be intentionally doped with trace elements to adjust the optical properties of the glass.

The basic principle of light transport through an optical fiber is total internal reflection. This means that the light within the numerical aperture of a fiber (NA = input acceptance cone) will be reflected and transported through the fiber. The size of the numerical aperture depends on the materials used for core and cladding.


Fiber optic cables

Patch cord

Bifurcated cable


Technical Data
Fiber type Step index
Core Numerical Aperture 0.22 ± 0.02
Buffer NA Polyimide (1,78) strips cladding modes
Laser damage resistant core 1,3 kW/mm2CW at 1060nm, up to 10 J, pulsed
Sleeve material Kevlar reinforced PVC
Inner Tubing Polypropylene
Outer dimensions 3.8 mm
Temperature Range -20 °C to +65 °C


Standard SMA connectors

For connecting spectrometers and light sources is used standard fiber optic cables with SMA 905 connectors. The typical insertion loss for the connectors is 0.5 dB. The maximum filling diameter for bundles is 2.46 mm.