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5 Components Common to All Optical Spectrometers Source Transparent Sample Holder Wavelength Selector Radiation Detector Signal Processor and Readout.

Published byRonald Martin Anderson Modified over 9 years ago

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Presentation on theme: "5 Components Common to All Optical Spectrometers Source Transparent Sample Holder Wavelength Selector Radiation Detector Signal Processor and Readout."— Presentation transcript:

1 5 Components Common to All Optical Spectrometers Source Transparent Sample Holder Wavelength Selector Radiation Detector Signal Processor and Readout

2 5 Components Common to All Optical Spectrometers Source Transparent Sample Holder Wavelength Selector Radiation Detector Signal Processor and Readout

3 5 Components Common to All Optical Spectrometers Source Transparent Sample Holder Wavelength Selector Radiation Detector Signal Processor and Readout This would apply in cases of emission and chemiluminescence

4 1. Sources 1.Continuous sources 2.Line sources 3.Lasers (Light amplification by stimulated emission of radiation) Extremely monochromatic (0.01nm) Tunable lasers are possible Lasers excite electrons with excess energy. The excess energy is emitted so that it is all the same wavelength

5 2. Transparent sample holders Glass absorbs in UV Water absorbs in IR

6 3. Wavelength Selectors A.Filters Interference Filters Can be used in IR, UV, visible regions Work through interference of light Transparent spacer made of dielectric such as CaF2, MgF2, or SiO link

7 Interference Wedges Transmitted radiation varies along position of wedge Can also serve as a monochrometer

8 Absorption Filters a. Typically colored glass or dyed gelatin b. Cheaper than interference filters c. Good only for visible region d. The narrower the effective bandwidth, smaller the transmittance in the desired region

9 Summarize the differences between absorption and interference filters

10 Entrance Slit

11 Entrance Slit: Purpose is to provide rectangular optical image

12 Entrance Slit Collimating Mirror

13 Entrance Slit: Purpose is to provide rectangular optical image Collimating Mirror or lens: Purpose is to produce parallel beams of radiation, it overcomes diffraction

14 Entrance Slit Collimating Mirror Prism or Grating

15 Entrance Slit: Purpose is to provide rectangular optical image Collimating Mirror or lens: Purpose is to produce parallel beams of radiation, it overcomes diffraction Prism or Grating: Disperses radiation into its component wavelengths

16 Entrance Slit Collimating Mirror Prism or Grating Focusing Mirror

17 Entrance Slit: Purpose is to provide rectangular optical image Collimating Mirror or lens: Purpose is to produce parallel beams of radiation, it overcomes diffraction Prism or Grating: Disperses radiation into its component wavelengths Focusing Mirror: Reforms image from slit onto focal plane

18 Entrance Slit Collimating Mirror Prism or Grating Focusing Mirror Exit Slit

19 All Monochrometers contain these components Entrance Slit: Purpose is to provide rectangular optical image Collimating Mirror or lens: Purpose is to produce parallel beams of radiation, it overcomes diffraction Prism or Grating: Disperses radiation into its component wavelengths Focusing Mirror: Reforms image from slit onto focal plane Exit Slit: Isolates Spectral Band

20

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