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Literature DB >> 19424315

Measurement and imaging of birefringence and optic axis orientation by phase resolved polarization sensitive optical coherence tomography.

C Hitzenberger, E Goetzinger, M Sticker, M Pircher, A Fercher.

Abstract

We present an improved method of polarization sensitive optical coherence tomography that enables measurement and imaging of backscattered intensity, birefringence, and fast optic axis orientation simultaneously with only one single A-scan per transverse measurement location. While intensity and birefringence data are obtained in a conventional way, the optic axis orientation is determined from the phase difference recorded in two orthogonal polarization channels. We report on accuracy and precision of the method by measuring birefringence and optic axis orientation of well defined polarization states in a technical object and present maps of birefringence and, what we believe for the first time, of optic axis orientation in biological tissue.

Year: 2001 PMID： 19424315 DOI： 10.1364/oe.9.000780

Source DB: PubMed Journal: Opt Express ISSN： 1094-4087 Impact factor: 3.894

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Cited

78 in total

1. Novel catheter enabling simultaneous radiofrequency ablation and optical coherence reflectometry.

Authors: D Herranz; Juan Lloret; Santiago Jiménez-Valero; J L Rubio-Guivernau; Eduardo Margallo-Balbás
Journal: Biomed Opt Express Date: 2015-08-07 Impact factor: 3.732

2. Birefringence imaging of posterior eye by multi-functional Jones matrix optical coherence tomography.

Authors: Satoshi Sugiyama; Young-Joo Hong; Deepa Kasaragod; Shuichi Makita; Sato Uematsu; Yasushi Ikuno; Masahiro Miura; Yoshiaki Yasuno
Journal: Biomed Opt Express Date: 2015-11-19 Impact factor: 3.732

3. Combined reflectance confocal microscopy-optical coherence tomography for delineation of basal cell carcinoma margins: an ex vivo study.

Authors: Nicusor Iftimia; Gary Peterson; Ernest W Chang; Gopi Maguluri; William Fox; Milind Rajadhyaksha
Journal: J Biomed Opt Date: 2016-01 Impact factor: 3.170

4. Jones matrix analysis for a polarization-sensitive optical coherence tomography system using fiber-optic components.

Authors: B Hyle Park; Mark C Pierce; Barry Cense; Johannes F de Boer
Journal: Opt Lett Date: 2004-11-01 Impact factor: 3.776

5. Extracting structural features of rat sciatic nerve using polarization-sensitive spectral domain optical coherence tomography.

Authors: M Shahidul Islam; Michael C Oliveira; Yan Wang; Francis P Henry; Mark A Randolph; B Hyle Park; Johannes F de Boer
Journal: J Biomed Opt Date: 2012-05 Impact factor: 3.170

6. Classification of basal cell carcinoma in human skin using machine learning and quantitative features captured by polarization sensitive optical coherence tomography.

Authors: Tahereh Marvdashti; Lian Duan; Sumaira Z Aasi; Jean Y Tang; Audrey K Ellerbee Bowden
Journal: Biomed Opt Express Date: 2016-08-29 Impact factor: 3.732

10. Polarization maintaining fiber based ultra-high resolution spectral domain polarization sensitive optical coherence tomography.

Authors: Erich Götzinger; Bernhard Baumann; Michael Pircher; Christoph K Hitzenberger
Journal: Opt Express Date: 2009-12-07 Impact factor: 3.894