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Photoelectric Effect02:26

Photoelectric Effect

When light of a particular wavelength strikes a metal surface, electrons are emitted. This is called the photoelectric effect. The minimum frequency of light that can cause such emission of electrons is called the threshold frequency, which is specific to the metal. Light with a frequency lower than the threshold frequency, even if it is of high intensity, cannot initiate the emission of electrons. However, when the frequency is higher than the threshold value, the number of electrons ejected...
The Photochemical Reaction Center01:29

The Photochemical Reaction Center

Reaction centers are pigment-protein complexes that initiate energy conversion from photons to chemical entities. Therefore, photochemical reaction center is a more appropriate term that describes these complexes. The Nobel laureates Robert Emerson and William Arnold provided the first experimental evidence of photochemical reaction centers by demonstrating the participation of nearly 2,500 chlorophyll molecules for the release of just one molecule of oxygen. Despite thousands of photosynthetic...
Thomson's e/m Experiment01:19

Thomson's e/m Experiment

In a beam of charged particles created by a heated cathode, the particles move at different speeds. However, many applications need a beam with uniform particle speeds. An arrangement known as a velocity selector uses electric and magnetic fields to pick particles with a particular speed from the beam.
A particle with charge q, speed v, and mass m enters an area from the top, where the magnetic and electric fields are perpendicular both to the particle's motion and to one another. The magnetic...
Photoluminescence: Fluorescence and Phosphorescence01:23

Photoluminescence: Fluorescence and Phosphorescence

Photoluminescence is a process where a molecule absorbs light energy and re-emits it in the form of light. This phenomenon occurs when a substance absorbs photons, promoting its electrons to higher energy level excited states, followed by a relaxation process in which the electrons return to their original ground state energy levels and emit light. Photoluminescence is widely observed in various materials, including semiconductors, and organic and inorganic compounds.
A pair of electrons in a...
Photoluminescence: Applications01:14

Photoluminescence: Applications

Photoluminescence offers a wide range of applications due to its inherent sensitivity and selectivity. This technique allows for both direct and indirect analyses of the analyte. Direct quantitative analysis is possible when the analyte exhibits a favorable quantum yield for fluorescence or phosphorescence. However, an indirect analysis may be feasible if the analyte is not fluorescent or phosphorescent, or if the quantum yield is unfavorable. Indirect methods include reacting the analyte with...
Fluorescence and Phosphorescence: Instrumentation01:25

Fluorescence and Phosphorescence: Instrumentation

Fluorometers and spectrofluorometers are two types of instruments used for measuring molecular fluorescence. These instruments differ in how they select excitation and emission wavelengths and the type of light sources they utilize. Fluorometers use absorption interference filters to choose excitation and emission wavelengths. The excitation source in a fluorometer is typically a low-pressure mercury vapor lamp that emits intense lines distributed throughout the ultraviolet and visible regions.

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Updated: Jun 24, 2026

Measurement of Quantum Interference in a Silicon Ring Resonator Photon Source
12:19

Measurement of Quantum Interference in a Silicon Ring Resonator Photon Source

Published on: April 4, 2017

Feliz cumpleaños centenario, fotón.

Anton Zeilinger1, Gregor Weihs, Thomas Jennewein

  • 1Institute for Experimental Physics, University of Vienna, Boltzmanngasse 5, A-1090 Vienna, Austria. zeilinger-office@quantum.at

Nature
|January 22, 2005
PubMed
Resumen
Este resumen es generado por máquina.

Albert Einstein fue uno de ellos.

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Área de la Ciencia:

  • La óptica cuántica es una óptica cuántica.
  • Procesamiento de información cuántica Procesamiento de información cuántica.

Sus antecedentes:

  • Albert Einstein introdujo el concepto de fotones hace 100 años.
  • La evidencia temprana de la naturaleza cuántica de la luz fue limitada.
  • Los experimentos modernos confirman el carácter corpuscular de la luz.

Objetivo del estudio:

  • Para revisar la evidencia histórica para el concepto de fotones.
  • Para resaltar el papel de la óptica cuántica en el procesamiento de información cuántica.
  • Para discutir las futuras aplicaciones tecnológicas de la óptica cuántica.

Principales métodos:

  • Revisión de experimentos históricos sobre la naturaleza cuántica de la luz.
  • Análisis de experimentos modernos que utilizan pares de fotones.
  • Discusión de la evolución de la investigación en óptica cuántica.

Principales resultados:

  • Los experimentos modernos, particularmente con pares de fotones, han confirmado la naturaleza corpuscular del fotón.
  • La investigación en óptica cuántica ha impulsado avances en el procesamiento de información cuántica.
  • El procesamiento de información cuántica promete tecnologías revolucionarias.

Conclusiones:

  • El concepto de fotones, debatido inicialmente, ahora ha sido validado experimentalmente.
  • La óptica cuántica es un campo fundamental para las tecnologías cuánticas emergentes.
  • La criptografía cuántica y las computadoras cuánticas son aplicaciones clave para el futuro.