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Related Concept Videos

Ultraviolet and Visible (UV–Vis) Spectroscopy: Overview01:02

Ultraviolet and Visible (UV–Vis) Spectroscopy: Overview

Ultraviolet–visible (UV–visible or UV–Vis) spectroscopy is an analytical technique that investigates the interaction between matter and UV–Vis light within the electromagnetic spectrum. This method is widely used for its versatility, simplicity, and relatively quick data acquisition, making it valuable for both qualitative and quantitative analysis. When UV–Vis radiation passes through a material,  molecules absorb light depending on the energy required for electronic transitions. As a result...
UV–Vis Spectrometers01:14

UV–Vis Spectrometers

The absorbance of UV and visible (UV–visible) radiations is measured using a UV–visible spectrophotometer. Deuterium lamps, which emit UV radiation, and tungsten lamps, which produce radiation in the visible region, are used as light sources in UV–visible spectrophotometers. A monochromator or prism is used for diffraction grating, i.e., to split the incoming radiation into different wavelengths. A system of slits is used to focus the desired wavelength on the sample cell. Samples for...
UV–Vis Spectroscopy: Molecular Electronic Transitions01:16

UV–Vis Spectroscopy: Molecular Electronic Transitions

In Ultraviolet–Visible (UV–Vis) spectroscopy, the absorption of electromagnetic radiation is used to probe the electronic structure of molecules. This technique provides insights into molecular electronic transitions, particularly the movement of electrons between different molecular orbitals. Radiation is absorbed if the energy of the electromagnetic radiation passing through the molecule is precisely equal to the energy difference between the excited and ground states. During this process,...
UV–Vis Spectrum01:30

UV–Vis Spectrum

When light passes through a substance, a portion of the light is absorbed while the remaining light is reflected or transmitted. If the molecule absorbs light between the wavelengths of 180–400 nm range, the UV spectrum is obtained, and if it absorbs light in the 400–780 nm wavelength range, the visible spectrum is obtained.     
The UV–Vis spectrum of a molecule is the plot of its absorbance versus wavelength. The plot is drawn by taking molar absorptivity (ε) or log ε on the y-axis (ordinate)...
UV–Vis Spectroscopy: Woodward–Fieser Rules01:29

UV–Vis Spectroscopy: Woodward–Fieser Rules

UV–Visible absorption spectra of conjugated dienes arise from the lowest energy π → π* transitions. The light-absorbing part of the molecule is called the chromophore, and the substituents directly attached to the chromophore are called auxochromes. A strong correlation exists between the absorption maxima, λmax, and the structure of a conjugated π system. The Woodward–Fieser rules predict the value of λmax for a given structure by adding the contributions...
UV–Vis Spectroscopy: Beer–Lambert Law01:09

UV–Vis Spectroscopy: Beer–Lambert Law

The Beer-Lambert law describes the relationship between absorbance and concentration, which combines the principles established by scientists Johann Heinrich Lambert and August Beer. Lambert's law states that when light passes through a medium, the loss in intensity is directly proportional to the original intensity and the path length of the light. Beer's law proposed that the transmittance of a solution remains constant if the product of concentration and path length is constant. The modern...

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Molecular Beam Mass Spectrometry With Tunable Vacuum Ultraviolet (VUV) Synchrotron Radiation
09:53

Molecular Beam Mass Spectrometry With Tunable Vacuum Ultraviolet (VUV) Synchrotron Radiation

Published on: October 30, 2012

[Source for spectrography in uv region].

M Morlais1, S Robin

  • 1Laboratoire de Spectroscopie, Faculté des Sciences, Rennes, France.

Applied Optics
|January 9, 2010
PubMed
Summary
This summary is machine-generated.

A novel spectrography source for the far ultraviolet region uses a triggered sliding spark discharge in a capillary tube. This stable, high-frequency source can produce either line or continuous spectra for detailed analysis.

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Area of Science:

  • Atomic and Molecular Spectroscopy
  • Plasma Physics
  • Ultraviolet Optics

Context:

  • Development of compact and efficient light sources for spectroscopic applications.
  • Challenges in generating stable spectra in the far ultraviolet (FUV) region.
  • Need for versatile sources capable of producing both line and continuum emissions.

Purpose:

  • To describe a simple, triggered sliding spark discharge source for far-UV spectrography.
  • To demonstrate control over spectral output (line vs. continuum) by adjusting power supply characteristics.
  • To highlight the source's stability and pulse repetition frequency for data acquisition.

Summary:

  • A novel spectrography source utilizes a capacitor discharge in a capillary tube, triggered by a sliding spark, even under vacuum conditions.
  • The spectral output can be controlled to produce either line or continuous spectra by modifying the high-voltage power supply.
  • The source exhibits high pulse repetition frequency and stability, enabling data recording with standard potentiometric chart recorders.

Impact:

  • Provides a simple and accessible tool for far-UV spectrographic analysis.
  • Enables flexible spectral generation for diverse research applications.
  • Facilitates routine spectroscopic measurements through stable, high-repetition-rate operation.