David Briers scite author profile

Abstract. When laser light illuminates a diffuse object, it produces a random interference effect known as a speckle pattern. If there is movement in the object, the speckles fluctuate in intensity. These fluctuations can provide information about the movement. A simple way of accessing this information is to image the speckle pattern with an exposure time longer than the shortest speckle fluctuation time scale-the fluctuations cause a blurring of the speckle, leading to a reduction in the local speckle contrast. Thus, velocity distributions are coded as speckle contrast variations. The same information can be obtained by using the Doppler effect, but producing a two-dimensional Doppler map requires either scanning of the laser beam or imaging with a high-speed camera: laser speckle contrast imaging (LSCI) avoids the need to scan and can be performed with a normal CCD-or CMOS-camera. LSCI is used primarily to map flow systems, especially blood flow. The development of LSCI is reviewed and its limitations and problems are investigated.

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Speckle Technologies for Monitoring and Imaging Tissues and Tissue-Like Phantoms

Briers¹,

Zimnyakov²,

Ushakova³

et al.

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IOP Optical Group celebrates its centenary

Briers¹

1999

J. Opt. A: Pure Appl. Opt.

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That sinking feeling

Briers

Ruf²,

Clowe

2007

Phys. World

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Optics in the open

Briers¹

2003

Phys. World

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David Briers

Laser speckle contrast imaging: theoretical and practical limitations

Speckle Technologies for Monitoring and Imaging Tissues and Tissue-Like Phantoms

IOP Optical Group celebrates its centenary

That sinking feeling

Optics in the open

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