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Induced Electric Dipoles01:28

Induced Electric Dipoles

5.1K
A permanent electric dipole orients itself along an external electric field. This rotation can be quantified by defining the potential energy because the external torque does work in rotating it. Then, the potential energy is minimum at the parallel configuration and maximum at the antiparallel configuration. While the former is a stable equilibrium, the latter is an unstable equilibrium.
Since the absolute value of potential energy holds no physical meaning, its zero value can be chosen as per...
5.1K
Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)01:20

Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)

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Two NMR-active nuclei bonded to a central atom can be involved in geminal or two-bond coupling. Geminal coupling is commonly seen between diastereotopic protons in chiral molecules and unsymmetrical alkenes, among others.
The central atom need not be NMR-active because its electrons are affected by the electron polarization of the spin-active atoms. However, spin information is transmitted less effectively than in one-bond coupling, and 2J values are usually weaker than 1J values. The energy of...
2.0K
Induced Electric Fields01:23

Induced Electric Fields

5.1K
The fact that emfs are induced in circuits implies that work is being done on the conduction electrons in the wires. What can possibly be the source of this work? We know that it’s neither a battery nor a magnetic field, as a battery does not have to be present in a circuit where current is induced, and magnetic fields never do any work on moving charges. The source of the work is in fact an electric field that is induced in the wires. For example, if a stationary conductor is placed in a...
5.1K
Electromagnetic Waves in Matter01:30

Electromagnetic Waves in Matter

4.3K
Electromagnetic waves can travel in the vacuum as well as in matter. For example light, which is an electromagnetic wave, can travel through air, water, or glass.
Consider the electromagnetic wave passing through a dielectric medium. In such a case, Maxwell's equations get modified. In Ampere's law, ε0 , the dielectric permittivity of free space is replaced with ε, the permittivity of dielectric. Also, the vacuum permeability μ0 is replaced by the permeability of the medium,...
4.3K
Generating Electromagnetic Radiations01:10

Generating Electromagnetic Radiations

8.8K
The German physicist Heinrich Hertz (1857–1894) was the first to generate and detect certain types of electromagnetic waves in the laboratory. Starting in 1887, he performed a series of experiments that confirmed the existence of electromagnetic waves and verified that they travel at the speed of light. Hertz used an alternating-current RLC (resistor-inductor-capacitor) circuit that resonated at a known frequency and connected it to a loop of wire. High voltages induced across the gap in...
8.8K
Spin–Spin Coupling: Three-Bond Coupling (Vicinal Coupling)01:22

Spin–Spin Coupling: Three-Bond Coupling (Vicinal Coupling)

1.7K
Vicinal or three-bond coupling is commonly observed between protons attached to adjacent carbons. Here, nuclear spin information is primarily transferred via electron spin interactions between adjacent C‑H bond orbitals. This generally favors the antiparallel arrangement of spins, so 3J values are usually positive.
The extent of coupling depends on the C‑C bond length, the two H‑C‑C angles, any electron-withdrawing substituents, and the dihedral angle between the...
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Related Experiment Video

Updated: Apr 17, 2026

Generation and Coherent Control of Pulsed Quantum Frequency Combs
06:42

Generation and Coherent Control of Pulsed Quantum Frequency Combs

Published on: June 8, 2018

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Induced coherence, vacuum fields, and complementarity in biphoton generation.

A Heuer1, R Menzel1, P W Milonni2

  • 1Institute of Physics and Astronomy, University of Potsdam, Karl-Liebknecht Straß e 24-25, D-14476 Potsdam, Germany.

Physical Review Letters
|February 21, 2015
PubMed
Summary
This summary is machine-generated.

Introducing additional photon channels reduces single-photon interference visibility but enhances coincidence visibility. This phenomenon, explained by a simplified model, highlights the role of vacuum fields in quantum experiments.

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Area of Science:

  • Quantum Optics
  • Quantum Information

Background:

  • Spontaneous parametric down-conversion (SPDC) with coupled interferometers yields high-visibility single-photon interference.
  • Complementarity principle dictates a trade-off between which-path information and interference visibility.

Purpose of the Study:

  • To investigate the effect of introducing additional photon channels on single-photon interference.
  • To explore the relationship between which-path information and interference fringe visibility.
  • To reconcile observations with quantum mechanical principles.

Main Methods:

  • Experimental manipulation of photon pathways in coupled interferometers.
  • Introduction of additional photon channels to enable which-path information.
  • Coincidence counting measurements for photons detected simultaneously.

Main Results:

  • Reduced fringe visibility in single-photon interference when which-path information is available.
  • Nearly perfect fringe visibility observed in coincidence measurements with additional pathways.
  • Experimental data aligns with predictions from a simplified theoretical model.

Conclusions:

  • The introduction of which-path information fundamentally alters interference patterns.
  • Coincidence measurements reveal correlations masked in single-photon detection.
  • Vacuum fields at different crystals play a crucial role in observed quantum phenomena.