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Double Resonance Techniques: Overview01:12

Double Resonance Techniques: Overview

833
Double resonance techniques in Nuclear Magnetic Resonance (NMR) spectroscopy involve the simultaneous application of two different frequencies or radiofrequency pulses to manipulate and observe two distinct nuclear spins. One important application of double resonance is spin decoupling, which selectively suppresses coupling with one type of nucleus while observing the NMR signal from another nucleus, simplifying the spectrum and enhancing resolution.
Spin decoupling is usually achieved by...
833
¹H NMR: Interpreting Distorted and Overlapping Signals01:02

¹H NMR: Interpreting Distorted and Overlapping Signals

1.7K
Spin systems where the difference in chemical shifts of the coupled nuclei is greater than ten times J are called first-order spin systems. These nuclei are weakly coupled, and their chemical shifts and coupling constant can generally be estimated from the well-separated signals in the spectrum.
As Δν decreases and the signals move closer, the doublets appear increasingly distorted. The intensities of the inner lines increase at the cost of those of the outer lines as the signals are...
1.7K
Carrier Generation and Recombination01:22

Carrier Generation and Recombination

1.5K
Carrier generation is the process by which electron-hole pairs (EHPs) are created within the semiconductor. In direct-bandgap semiconductors, such as gallium arsenide (GaAs), this occurs efficiently when energy absorption prompts valence electrons to leap into the conduction band, leaving behind holes.
This process is given by the generation rate G and is efficient due to the conservation of momentum between the valence band maximum and conduction band minimum.
Indirect generation involves an...
1.5K
High-Resolution Mass Spectrometry (HRMS)01:15

High-Resolution Mass Spectrometry (HRMS)

2.8K
The resolution of a mass spectrometer depends on the efficiency of separating ions with different ion masses. The mass of an atom is approximated to the sum of the masses of protons and neutrons inside, considering the masses of protons and neutrons as equal. However, the masses of the proton (1.6726 × 10−24 g) and neutron (1.6749 × 10−24 g) are not truly equal. There is a minor error in the expression of atomic masses relative to the simplest atom of hydrogen. For...
2.8K
¹H NMR: Complex Splitting01:13

¹H NMR: Complex Splitting

2.1K
A proton M that is coupled to a proton X results in doublet signals for M. However, NMR-active nuclei can be simultaneously coupled to more than one nonequivalent nucleus. When M is coupled to a second proton A, such as in styrene oxide, each peak in the doublet is split into another doublet.
Splitting diagrams or splitting tree diagrams are routinely used to depict such complex couplings. While drawing splitting diagrams, the splitting with the larger coupling constant is usually applied...
2.1K
NMR Spectrometers: Radiofrequency Pulses and Pulse Sequences01:17

NMR Spectrometers: Radiofrequency Pulses and Pulse Sequences

1.9K
A pulse is a short burst of radio waves distributed over a range of frequencies that simultaneously excites all the nuclei in the sample. Upon passing a radio frequency pulse along the x-axis, the nuclei absorb energy corresponding to their Larmor frequencies and achieve resonance. This shifts the net magnetization vector from the z-axis toward the transverse plane. This angle of rotation of the magnetization vector, or the flip angle, is proportional to the duration and intensity of the pulse.
1.9K

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Related Experiment Video

Updated: Mar 15, 2026

Direct Imaging of Laser-driven Ultrafast Molecular Rotation
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Published on: February 4, 2017

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Multiple rescattering processes in high-order harmonic generation from molecular system.

Cai-Ping Zhang, Chang-Long Xia, Xiang-Fu Jia

    Optics Express
    |September 9, 2016
    PubMed
    Summary

    This study investigates molecular rescattering processes using the time-dependent Schrödinger equation. It distinguishes between parent and neighboring nucleus rescatterings, revealing sensitivities to internuclear distance.

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    Area of Science:

    • Quantum mechanics
    • Atomic and molecular physics
    • Nonlinear optics

    Background:

    • Molecular multiple rescattering is a complex quantum phenomenon.
    • Understanding these processes is crucial for attosecond science and strong-field physics.
    • Distinguishing rescattering origins is key to interpreting experimental data.

    Purpose of the Study:

    • To theoretically investigate molecular multiple rescattering processes.
    • To establish a physical model for these phenomena.
    • To differentiate rescatterings from parent and neighboring nuclei.

    Main Methods:

    • Solving the time-dependent Schrödinger equation.
    • Utilizing time-frequency distribution analysis.
    • Employing classical electron dynamics simulations.

    Main Results:

    • A physical model for molecular multiple rescattering was established.
    • Rescatterings from parent nuclei resemble atomic rescatterings.
    • Rescatterings from neighboring nuclei show sensitivity to internuclear distance.
    • Mechanisms were elucidated using time-frequency and classical dynamics.

    Conclusions:

    • The study successfully models and differentiates molecular rescattering mechanisms.
    • Neighboring nucleus rescatterings offer a sensitive probe of molecular structure.
    • This work advances the understanding of light-matter interactions in molecules.