Literature DB >> 22940988

Subnanometer optical coherence tomographic vibrography.

Ernest W Chang1, James B Kobler, Seok H Yun.   

Abstract

The ability to quantify and visualize submicrometer-scale oscillatory motions of objects in three dimensions has a wide range of application in acoustics, materials sciences, and medical imaging. Here we demonstrate that volumetric snapshots of rapid periodic motion can be captured using optical coherence tomography (OCT) with subnanometer-scale motion sensitivity and microsecond-scale temporal resolution. This technique, termed OCT vibrography, was applied to generate time-resolved volumetric vibrographs of a miniature drum driven acoustically at several kilohertz.

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Year:  2012        PMID: 22940988      PMCID: PMC3740196          DOI: 10.1364/OL.37.003678

Source DB:  PubMed          Journal:  Opt Lett        ISSN: 0146-9592            Impact factor:   3.776


  14 in total

1.  Phase-sensitive optical coherence tomography imaging of the tissue motion within the organ of Corti at a subnanometer scale: a preliminary study.

Authors:  Ruikang K Wang; Alfred L Nuttall
Journal:  J Biomed Opt       Date:  2010 Sep-Oct       Impact factor: 3.170

2.  Spectral-domain optical coherence phase microscopy for quantitative phase-contrast imaging.

Authors:  Chulmin Joo; Taner Akkin; Barry Cense; Boris H Park; Johannes F de Boer
Journal:  Opt Lett       Date:  2005-08-15       Impact factor: 3.776

3.  Spectral-domain phase microscopy.

Authors:  Michael A Choma; Audrey K Ellerbee; Changhuei Yang; Tony L Creazzo; Joseph A Izatt
Journal:  Opt Lett       Date:  2005-05-15       Impact factor: 3.776

4.  Sub-kelvin optical cooling of a micromechanical resonator.

Authors:  Dustin Kleckner; Dirk Bouwmeester
Journal:  Nature       Date:  2006-11-02       Impact factor: 49.962

5.  Weighing of biomolecules, single cells and single nanoparticles in fluid.

Authors:  Thomas P Burg; Michel Godin; Scott M Knudsen; Wenjiang Shen; Greg Carlson; John S Foster; Ken Babcock; Scott R Manalis
Journal:  Nature       Date:  2007-04-26       Impact factor: 49.962

6.  Acoustomotive optical coherence elastography for measuring material mechanical properties.

Authors:  Xing Liang; Marko Orescanin; Kathleen S Toohey; Michael F Insana; Stephen A Boppart
Journal:  Opt Lett       Date:  2009-10-01       Impact factor: 3.776

7.  Motion of the surface of the human tympanic membrane measured with stroboscopic holography.

Authors:  Jeffrey Tao Cheng; Antti A Aarnisalo; Ellery Harrington; Maria Del Socorro Hernandez-Montes; Cosme Furlong; Saumil N Merchant; John J Rosowski
Journal:  Hear Res       Date:  2009-12-23       Impact factor: 3.208

8.  In vivo three-dimensional optical coherence elastography.

Authors:  Brendan F Kennedy; Xing Liang; Steven G Adie; Derek K Gerstmann; Bryden C Quirk; Stephen A Boppart; David D Sampson
Journal:  Opt Express       Date:  2011-03-28       Impact factor: 3.894

9.  Triggered optical coherence tomography for capturing rapid periodic motion.

Authors:  Ernest W Chang; James B Kobler; Seok H Yun
Journal:  Sci Rep       Date:  2011-07-28       Impact factor: 4.379

10.  A differentially amplified motion in the ear for near-threshold sound detection.

Authors:  Fangyi Chen; Dingjun Zha; Anders Fridberger; Jiefu Zheng; Niloy Choudhury; Steven L Jacques; Ruikang K Wang; Xiaorui Shi; Alfred L Nuttall
Journal:  Nat Neurosci       Date:  2011-05-22       Impact factor: 24.884
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  20 in total

1.  Volumetric full-range magnetomotive optical coherence tomography.

Authors:  Adeel Ahmad; Jongsik Kim; Nathan D Shemonski; Marina Marjanovic; Stephen A Boppart
Journal:  J Biomed Opt       Date:  2014-12       Impact factor: 3.170

2.  Quantitative technique for robust and noise-tolerant speed measurements based on speckle decorrelation in optical coherence tomography.

Authors:  Néstor Uribe-Patarroyo; Martin Villiger; Brett E Bouma
Journal:  Opt Express       Date:  2014-10-06       Impact factor: 3.894

3.  Noninvasive in vivo imaging reveals differences between tectorial membrane and basilar membrane traveling waves in the mouse cochlea.

Authors:  Hee Yoon Lee; Patrick D Raphael; Jesung Park; Audrey K Ellerbee; Brian E Applegate; John S Oghalai
Journal:  Proc Natl Acad Sci U S A       Date:  2015-03-03       Impact factor: 11.205

Review 4.  Optical coherence elastography - OCT at work in tissue biomechanics [Invited].

Authors:  Kirill V Larin; David D Sampson
Journal:  Biomed Opt Express       Date:  2017-01-27       Impact factor: 3.732

5.  Mapping the phase and amplitude of ossicular chain motion using sound-synchronous optical coherence vibrography.

Authors:  Antoine Ramier; Jeffrey Tao Cheng; Michael E Ravicz; John J Rosowski; Seok-Hyun Yun
Journal:  Biomed Opt Express       Date:  2018-10-17       Impact factor: 3.732

6.  Spectroscopic photonic force optical coherence elastography.

Authors:  Yuechuan Lin; Nichaluk Leartprapun; Steven G Adie
Journal:  Opt Lett       Date:  2019-10-01       Impact factor: 3.776

7.  Depth-resolved measurement of optical radiation-pressure forces with optical coherence tomography.

Authors:  Nichaluk Leartprapun; Rishyashring R Iyer; Steven G Adie
Journal:  Opt Express       Date:  2018-02-05       Impact factor: 3.894

8.  Spatial localization of mechanical excitation affects spatial resolution, contrast, and contrast-to-noise ratio in acoustic radiation force optical coherence elastography.

Authors:  Nichaluk Leartprapun; Rishyashring R Iyer; Colin D Mackey; Steven G Adie
Journal:  Biomed Opt Express       Date:  2019-10-24       Impact factor: 3.732

9.  Noise and sensitivity in optical coherence tomography based vibrometry.

Authors:  Sangmin Kim; John S Oghalai; Brian E Applegate
Journal:  Opt Express       Date:  2019-11-11       Impact factor: 3.894

10.  Microrheological quantification of viscoelastic properties with photonic force optical coherence elastography.

Authors:  Nichaluk Leartprapun; Yuechuan Lin; Steven G Adie
Journal:  Opt Express       Date:  2019-08-05       Impact factor: 3.894
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