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IR Spectrometers01:25

IR Spectrometers

There are two main infrared (IR) spectrophotometers: dispersive IR spectrometers and Fourier transform infrared (FTIR) spectrometers. In a dispersive IR spectrometer, a beam of infrared radiation produced by a hot wire is divided into two parallel equal-intensity beams using mirrors. One beam passes through the sample, while another is a reference beam. The beams then move through the monochromator, which separates the radiations into a continuous spectrum of different frequencies. The...
Infrared (IR) Spectroscopy: Overview01:09

Infrared (IR) Spectroscopy: Overview

When electromagnetic radiation passes through a material, atoms or molecules transition from a lower to a higher energy state by absorbing radiation corresponding to the energy difference between the two states. The absorption of infrared (IR) radiation causes transitions between vibrational energy levels in a molecule. Therefore, IR spectroscopy is a useful analytical tool for determining the molecular structure of molecules.
Different compounds display unique properties due to their...
Attenuated Total Reflectance (ATR) Infrared Spectroscopy: Overview01:13

Attenuated Total Reflectance (ATR) Infrared Spectroscopy: Overview

Attenuated total reflectance (ATR) infrared spectroscopy is a powerful analytical technique used to study the composition of materials. It is widely employed in chemistry, materials science, forensic science, and other fields where sample characterization is required. ATR has several advantages over traditional transmission IR spectroscopy, including the requirement of little to no sample preparation and the ability to analyze a wide range of samples.
The ATR process begins by directing a beam...
IR Spectroscopy: Molecular Vibration Overview01:24

IR Spectroscopy: Molecular Vibration Overview

When Infrared (IR) radiation passes through a covalently bonded molecule, the bonds transition from lower to higher vibrational levels. The fundamental vibrational motions that result in infrared absorption can be classified as stretching or bending vibrations.
Stretching vibrations are vibrational motions that occur along the bond line, changing the bond length or distance between two bonded atoms. They are further distinguished as symmetric or asymmetric. In symmetric stretching, the...
Applications of IR Spectroscopy: Overview01:11

Applications of IR Spectroscopy: Overview

The non-destructive nature and ability to provide valuable chemical information make IR spectroscopy a versatile technique with broad applications in various scientific and industrial fields. IR spectroscopy is commonly used to identify and characterize organic and inorganic compounds. It provides information about the functional groups present in a molecule and the bonding between atoms. This helps in the structural elucidation of compounds during organic synthesis, pharmaceutical research,...
IR Spectrum01:19

IR Spectrum

When infrared (IR) radiation passes through a molecule, the bonds stretch or bend by absorbing the radiation. This absorption creates the molecule's absorption spectrum, which is the plot of its percentage transmittance versus wavenumber.
Transmittance is defined as the ratio of the radiant power passing through a sample to that from the radiation's source. Multiplying the transmittance by 100 gives the percent transmittance (%T), which varies between 100% (no absorption) and 0% (complete...

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Related Experiment Video

Updated: Jul 7, 2026

The Use of High-resolution Infrared Thermography (HRIT) for the Study of Ice Nucleation and Ice Propagation in Plants
09:36

The Use of High-resolution Infrared Thermography (HRIT) for the Study of Ice Nucleation and Ice Propagation in Plants

Published on: May 8, 2015

Panoramic infrared-imaging spectroradiometer model with reverse phase-modulated beam broadcasting.

A H Carrieri

    Applied Optics
    |March 20, 1997
    PubMed
    Summary
    This summary is machine-generated.

    A new panoramic spectroradiometer (PANSPEC) offers advanced infrared environmental monitoring for chemical clouds. This passive remote sensor achieves near-diffraction-limited imaging for enhanced detection and identification of chemical species.

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    Time Multiplexing Super Resolving Technique for Imaging from a Moving Platform
    06:25

    Time Multiplexing Super Resolving Technique for Imaging from a Moving Platform

    Published on: February 12, 2014

    Related Experiment Videos

    Last Updated: Jul 7, 2026

    The Use of High-resolution Infrared Thermography (HRIT) for the Study of Ice Nucleation and Ice Propagation in Plants
    09:36

    The Use of High-resolution Infrared Thermography (HRIT) for the Study of Ice Nucleation and Ice Propagation in Plants

    Published on: May 8, 2015

    Time Multiplexing Super Resolving Technique for Imaging from a Moving Platform
    06:25

    Time Multiplexing Super Resolving Technique for Imaging from a Moving Platform

    Published on: February 12, 2014

    Area of Science:

    • Optics and Photonics
    • Remote Sensing
    • Spectroscopy

    Background:

    • Passive remote sensing is crucial for environmental monitoring.
    • Detecting chemical clouds requires high-resolution spectral analysis.
    • Infrared spectroscopy offers unique signatures for chemical identification.

    Purpose of the Study:

    • To present the optical design of a panoramic spectroradiometer (PANSPEC).
    • To evaluate the computer-simulated image performance of the PANSPEC instrument.
    • To demonstrate PANSPEC's capability for detecting chemical clouds via spectral analysis.

    Main Methods:

    • Optical design and computer simulation of the PANSPEC instrument.
    • Utilizing merit functions for optimization of optical components (entrance window, collector, collimator, interferometer, imager).
    • Simulating image performance metrics including spatial resolution and modulation transfer function.

    Main Results:

    • A balanced, near-diffraction-limited circular image (6.3 mm diameter).
    • Achieved spatial resolution of 10 line pairs/mm at 50% modulation.
    • An f/2.3 working speed for efficient light collection.

    Conclusions:

    • The PANSPEC design enables effective detection of chemical clouds through infrared spectral analysis.
    • Computer simulations confirm the instrument's capability to resolve characteristic absorption/emission spectra.
    • The optimized optical performance supports reliable identification and monitoring of chemical species in the environment.