Introducing non-local correlations into laser speckles

Abstract

Laser speckles have become a fundamental component of the modern optics-research toolbox. Not only are speckle patterns the basis of numerous imaging techniques, but they are also employed to generate optical potentials for cold atoms and colloidal particles. The ability to manipulate a speckle pattern's spatial intensity correlations, particularly long-range (non-local)ones, is essential in numerous applications. A typical fully-developed speckle pattern, however, possesses only short-ranged (local) intensity correlations which are determined by the spatial field correlations. Here, we experimentally demonstrate and theoretically develop a general method for creating fully-developed speckles with strong non-local intensity correlations. The functional form of the spatial intensity correlations can be arbitrarily tailored without altering the field correlations. Our approach provides a versatile and utilitarian framework for enhancing and controlling non-local correlations in speckle patterns.

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Document Details

Document Type
Technical Report
Publication Date
Feb 20, 2019
Accession Number
AD1105215

Entities

People

  • Hasan Yılmaz
  • Hui Cao
  • Nicholas Bender
  • Yaron Bromberg

Organizations

  • Yale University

Tags

Communities of Interest

  • Air Platforms
  • C4I

DTIC Thesaurus Topics

  • Algorithms
  • Amplitude
  • Coincidence Counting
  • Contrast
  • Far Field
  • Intensity
  • Laser Beams
  • Light Scattering
  • Materials
  • Modulators
  • Near Field
  • Optical Modulators
  • Optics
  • Probability
  • Probability Density Functions
  • Scattering
  • Two Dimensional

Fields of Study

  • Physics

Readers

  • Image Processing and Computer Vision.
  • Quantum spin resonance or Electron Paramagnetic Resonance spectroscopy.
  • Theoretical Analysis.

Technology Areas

  • Directed Energy