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Quantum Numbers02:43

Quantum Numbers

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It is said that the energy of an electron in an atom is quantized; that is, it can be equal only to certain specific values and can jump from one energy level to another but not transition smoothly or stay between these levels.
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Norton's Theorem01:14

Norton's Theorem

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Norton's theorem is a fundamental principle stating that a linear two-terminal circuit can be substituted with an equivalent circuit, which comprises a current source (ⅠN) in parallel with a resistor (RN). Here, ⅠN represents the short-circuit current flowing through the terminals, and RN stands for the input or equivalent resistance at the terminals when all independent sources are deactivated. This implies that the circuit illustrated in Figure (a) can be exchanged with the one depicted...
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The Quantum-Mechanical Model of an Atom02:45

The Quantum-Mechanical Model of an Atom

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Shortly after de Broglie published his ideas that the electron in a hydrogen atom could be better thought of as being a circular standing wave instead of a particle moving in quantized circular orbits, Erwin Schrödinger extended de Broglie’s work by deriving what is now known as the Schrödinger equation. When Schrödinger applied his equation to hydrogen-like atoms, he was able to reproduce Bohr’s expression for the energy and, thus, the Rydberg formula governing hydrogen spectra.
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Emission Spectra02:39

Emission Spectra

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When solids, liquids, or condensed gases are heated sufficiently, they radiate some of the excess energy as light. Photons produced in this manner have a range of energies, and thereby produce a continuous spectrum in which an unbroken series of wavelengths is present.
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Net Change Theorem01:22

Net Change Theorem

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The Net Change Theorem is a fundamental principle in calculus that establishes a direct relationship between a function’s rate of change and its accumulated change over an interval. Mathematically, it states that the definite integral of a function's derivative over a given interval [a,b] yields the net change in the original function:This theorem has significant applications in various real-world scenarios, including physics, economics, and engineering. A particularly useful application...
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Propagation of Uncertainty from Random Error00:59

Propagation of Uncertainty from Random Error

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An experiment often consists of more than a single step. In this case, measurements at each step give rise to uncertainty. Because the measurements occur in successive steps, the uncertainty in one step necessarily contributes to that in the subsequent step. As we perform statistical analysis on these types of experiments, we must learn to account for the propagation of uncertainty from one step to the next. The propagation of uncertainty depends on the type of arithmetic operation performed on...
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Updated: Feb 22, 2026

Large Scale Energy Efficient Sensor Network Routing Using a Quantum Processor Unit
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Criptografía postcuántica

Daniel J Bernstein1, Tanja Lange2

  • 1Department of Computer Science, University of Illinois at Chicago, Chicago, Illinois 60607-7045, USA.

Nature
|September 15, 2017
PubMed
Resumen
Este resumen es generado por máquina.

La criptografía post-cuántica garantiza la seguridad contra las computadoras cuánticas mediante el uso de problemas matemáticos resistentes a los ataques cuánticos. El desafío consiste en equilibrar la facilidad de uso con una seguridad robusta para los futuros sistemas digitales.

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Área de la Ciencia:

  • Ciencias de la computación
  • Las matemáticas
  • Ciberseguridad

Sus antecedentes:

  • Los criptosistemas actuales se enfrentan a la obsolescencia con el advenimiento de las grandes computadoras cuánticas.
  • La computación cuántica representa una amenaza significativa para la seguridad de las comunicaciones en línea, los vehículos y los dispositivos médicos.
  • La criptografía post-cuántica (PQC) está emergiendo como un campo crítico para abordar estos futuros desafíos de seguridad.

Objetivo del estudio:

  • Explorar el desarrollo de sistemas criptográficos seguros contra ataques de computadoras cuánticas.
  • Para identificar las bases matemáticas resistentes a las aceleraciones algorítmicas cuánticas.
  • Para abordar el desafío central de mantener la usabilidad y flexibilidad criptográfica en la era post-cuántica.

Principales métodos:

  • Investigar problemas matemáticos difíciles de resolver para los algoritmos cuánticos.
  • Diseñar y analizar nuevos algoritmos criptográficos basados en estos problemas.
  • Evaluar la seguridad y el rendimiento de los criptosistemas post-cuánticos.

Principales resultados:

  • Identificación de las operaciones matemáticas con resistencia cuántica inherente.
  • Desarrollo de candidatos a algoritmos criptográficos postcuánticos.
  • Comprender las compensaciones entre la seguridad, la usabilidad y la flexibilidad en PQC.

Conclusiones:

  • La criptografía post-cuántica es vital para la seguridad digital del futuro.
  • Se requiere una investigación continua para perfeccionar los sistemas de control de la calidad para su implementación práctica.
  • El equilibrio entre las necesidades de seguridad y los requisitos de los usuarios es clave para la adopción exitosa de PQC.