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First Law: Particles in Two-dimensional Equilibrium01:18

First Law: Particles in Two-dimensional Equilibrium

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Recall that a particle in equilibrium is one for which the external forces are balanced. Static equilibrium involves objects at rest, and dynamic equilibrium involves objects in motion without acceleration; but it is important to remember that these conditions are relative. For instance, an object may be at rest when viewed from one frame of reference, but that same object would appear to be in motion when viewed by someone moving at a constant velocity.
Newton's first law tells us about...
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First Law: Particles in One-dimensional Equilibrium01:10

First Law: Particles in One-dimensional Equilibrium

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Newton's first law of motion states that a body at rest remains at rest, or if in motion, remains in motion at constant velocity, unless acted on by a net external force. It also states that there must be a cause for any change in velocity (a change in either magnitude or direction) to occur. This cause is a net external force. For example, consider what happens to an object sliding along a rough horizontal surface. The object quickly grinds to a halt, due to the net force of friction. If...
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Reduced Mass Coordinates: Isolated Two-body Problem01:12

Reduced Mass Coordinates: Isolated Two-body Problem

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In classical mechanics, the two-body problem is one of the fundamental problems describing the motion of two interacting bodies under gravity or any other central force. When considering the motion of two bodies, one of the most important concepts is the reduced mass coordinates, a quantity that allows the two-body problem to be solved like a single-body problem. In these circumstances, it is assumed that a single body with reduced mass revolves around another body fixed in a position with an...
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Collisions in Multiple Dimensions: Introduction01:05

Collisions in Multiple Dimensions: Introduction

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It is far more common for collisions to occur in two dimensions; that is, the initial velocity vectors are neither parallel nor antiparallel to each other. Let's see what complications arise from this. The first idea is that momentum is a vector. Like all vectors, it can be expressed as a sum of perpendicular components (usually, though not always, an x-component and a y-component, and a z-component if necessary). Thus, when the statement of conservation of momentum is written for a...
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Two-Dimensional Force System01:20

Two-Dimensional Force System

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A two-dimensional system in mechanical engineering involves the analysis of motion and forces in a plane. A two-dimensional force vector can be resolved into its components as:
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Relative Velocity in Two Dimensions01:11

Relative Velocity in Two Dimensions

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Relative velocity is the velocity of an object as observed from a particular reference frame, or the velocity of one reference frame with respect to another reference frame. The concept of relative velocity can be used to describe motion in two dimensions. Consider a particle P and two reference frames S and S′. The position of the origin of S′ as measured in S is , the position of P as measured in S′ is , and the position of P as measured in S is , which can be evaluated by utilizing...
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Updated: Mar 19, 2026

Fabrication and Characterization of Disordered Polymer Optical Fibers for Transverse Anderson Localization of Light
09:19

Fabrication and Characterization of Disordered Polymer Optical Fibers for Transverse Anderson Localization of Light

Published on: July 29, 2013

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Explorando la transición de localización de muchos cuerpos en dos dimensiones

Jae-yoon Choi1, Sebastian Hild2, Johannes Zeiher2

  • 1Max-Planck-Institut für Quantenoptik, 85748 Garching, Germany. jae-yoon.choi@mpq.mpg.de.

Science (New York, N.Y.)
|June 25, 2016
PubMed
Resumen
Este resumen es generado por máquina.

Los investigadores observaron una transición de localización de muchos cuerpos en los bosones dentro de una red óptica desordenada. Este hallazgo desafía la suposición de termialización en sistemas cuánticos de muchos cuerpos y revela una escala de longitud divergente en la transición.

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Área de la Ciencia:

  • La física cuántica
  • Mecánica estadística
  • Física de la materia condensada

Sus antecedentes:

  • Un principio básico en la física estadística es que los sistemas cuánticos de muchos cuerpos alcanzan naturalmente el equilibrio térmico.
  • El descubrimiento de la localización de muchos cuerpos (MBL) ha planteado preguntas sobre esta suposición fundamental.
  • MBL sugiere que ciertos sistemas cuánticos pueden no termizar debido a fuertes trastornos e interacciones.

Objetivo del estudio:

  • Investigar experimentalmente la transición entre las fases térmica y localizada en un sistema cuántico de muchos cuerpos.
  • Explorar el fenómeno de la localización de muchos cuerpos en una red óptica desordenada bidimensional.
  • Caracterizar la dinámica y el comportamiento crítico cerca de la transición de localización de muchos cuerpos.

Principales métodos:

  • Utilizando una red óptica desordenada en dos dimensiones para albergar partículas cuánticas bosónicas.
  • Preparar un patrón inicial de densidad fuera de equilibrio en el sistema.
  • El uso de mediciones de resolución en un solo sitio para rastrear la dinámica de relajación del sistema a lo largo del tiempo.

Principales resultados:

  • Se observó una clara transición entre las fases térmica y localizada para los bosones.
  • Proporcionó evidencia de una escala de longitud divergente a medida que el sistema se acerca a la transición de localización.
  • Demostró la localización de muchos cuerpos en un régimen más allá de las capacidades de las simulaciones clásicas actuales.

Conclusiones:

  • Los resultados experimentales confirman la existencia de una transición de localización de muchos cuerpos en este sistema bosónico.
  • Los hallazgos desafían la universalidad de la termialización en sistemas cuánticos cerrados de muchos cuerpos.
  • Este trabajo abre nuevas vías para estudiar los fenómenos de localización cuántica en sistemas complejos que interactúan.