Diffraction phase microscopy for quantifying cell structure and dynamics

Gabriel Popescu; Takahiro Ikeda; Ramachandra R. Dasari; Michael S. Feld

doi:10.1364/OL.31.000775

Diffraction phase microscopy for quantifying cell structure and dynamics

Gabriel Popescu
, Takahiro Ikeda
, Ramachandra R. Dasari
, Michael S. Feld

Research output: Contribution to journal › Article › peer-review

Abstract

We have developed diffraction phase microscopy as a new technique for quantitative phase imaging of biological structures. The method combines the principles of common path interferometry and single-shot phase imaging and is characterized by subnanometer path-length stability and millisecond-scale acquisition time. The potential of the technique for quantifying nanoscale motions in live cells is demonstrated by experiments on red blood cells.

Original language	English (US)
Pages (from-to)	775-777
Number of pages	3
Journal	Optics Letters
Volume	31
Issue number	6
DOIs	https://doi.org/10.1364/OL.31.000775
State	Published - Mar 15 2006
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1364/OL.31.000775

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title = "Diffraction phase microscopy for quantifying cell structure and dynamics",

abstract = "We have developed diffraction phase microscopy as a new technique for quantitative phase imaging of biological structures. The method combines the principles of common path interferometry and single-shot phase imaging and is characterized by subnanometer path-length stability and millisecond-scale acquisition time. The potential of the technique for quantifying nanoscale motions in live cells is demonstrated by experiments on red blood cells.",

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AU - Popescu, Gabriel

AU - Ikeda, Takahiro

AU - Dasari, Ramachandra R.

AU - Feld, Michael S.

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N2 - We have developed diffraction phase microscopy as a new technique for quantitative phase imaging of biological structures. The method combines the principles of common path interferometry and single-shot phase imaging and is characterized by subnanometer path-length stability and millisecond-scale acquisition time. The potential of the technique for quantifying nanoscale motions in live cells is demonstrated by experiments on red blood cells.

AB - We have developed diffraction phase microscopy as a new technique for quantitative phase imaging of biological structures. The method combines the principles of common path interferometry and single-shot phase imaging and is characterized by subnanometer path-length stability and millisecond-scale acquisition time. The potential of the technique for quantifying nanoscale motions in live cells is demonstrated by experiments on red blood cells.

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Diffraction phase microscopy for quantifying cell structure and dynamics

Abstract

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