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Related Concept Videos

Atomic Spectroscopy: Effects of Temperature01:27

Atomic Spectroscopy: Effects of Temperature

Atomization, converting samples into gas-phase atoms and ions, is essential for atomic spectroscopy. The flame temperature required for atomization affects the efficiency of the atomic spectroscopic methods by increasing the atomization efficiency and the relative population of the excited and ground states.
At thermal equilibrium, the relative populations of excited and ground state atoms can be estimated using the Maxwell–Boltzmann distribution. For example, an increase in temperature from...

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Related Experiment Video

Updated: Jun 12, 2026

An Experimental Protocol for Femtosecond NIR/UV - XUV Pump-Probe Experiments with Free-Electron Lasers
09:49

An Experimental Protocol for Femtosecond NIR/UV - XUV Pump-Probe Experiments with Free-Electron Lasers

Published on: October 23, 2018

Mechanisms for improved XeF laser performance at elevated temperatures.

D H Burde, T T Yang, D G Harris

    Applied Optics
    |May 22, 2010
    PubMed
    Summary
    This summary is machine-generated.

    Temperature increases laser efficiency in Ne/Xe/NF(3) lasers by shifting rotational-vibrational populations. This study identifies key rotational states contributing to narrowband emissions, challenging previous assumptions about dissociation and absorption mechanisms.

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    Synthesis and Microdiffraction at Extreme Pressures and Temperatures
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    Synthesis and Microdiffraction at Extreme Pressures and Temperatures

    Published on: October 7, 2013

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    An Experimental Protocol for Femtosecond NIR/UV - XUV Pump-Probe Experiments with Free-Electron Lasers
    09:49

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    Published on: October 23, 2018

    Synthesis and Microdiffraction at Extreme Pressures and Temperatures
    07:26

    Synthesis and Microdiffraction at Extreme Pressures and Temperatures

    Published on: October 7, 2013

    Area of Science:

    • Laser Physics
    • Spectroscopy
    • Chemical Kinetics

    Background:

    • Ne/Xe/NF(3) gas mixtures are utilized in laser applications.
    • Understanding laser efficiency dependence on temperature is crucial for optimization.
    • Previous studies suggested ground-state dissociation and absorption influence efficiency.

    Purpose of the Study:

    • To measure lasing spectra and output efficiency of Ne/Xe/NF(3) laser mixtures across a temperature range.
    • To identify specific rotational states contributing to narrowband emissions.
    • To elucidate the primary mechanisms responsible for temperature-dependent laser efficiency.

    Main Methods:

    • Experimental measurement of lasing spectra and output efficiency for four Ne/Xe/NF(3) mixtures from 300 K to 450 K.
    • High-resolution spectral analysis correlated with theoretical rotational bandhead structure.
    • Identification of rotational states linked to 351-nm band emissions.

    Main Results:

    • Two narrowband emissions in the 351-nm band were identified and linked to specific rotational states.
    • Rotational-vibrational population shifts were found to be the dominant factor increasing laser efficiency with temperature.
    • The importance of increased ground-state dissociation and decreased narrowband absorption was re-evaluated and found to be less significant than previously thought.

    Conclusions:

    • Rotational-vibrational population shifts are the primary drivers of enhanced laser efficiency in Ne/Xe/NF(3) systems as temperature increases.
    • The identified rotational states provide insight into the lasing mechanisms at 351 nm.
    • This research refines the understanding of factors influencing Ne/Xe/NF(3) laser performance, highlighting population dynamics over dissociation and absorption effects.