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Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

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Acoustic Radiation Force Optical Coherence Elastography of Corneal Tissue Noncontact Elastic Wave Imaging Optical Coherence Elastography for Evaluating Changes in Corneal Elasticity Due to Crosslinking.Optical coherence elastography - OCT at work in tissue biomechanics [Invited]Ultra-fast line-field low coherence holographic elastography using spatial phase shifting High-speed OCT light sources and systems [Invited].Assessing the effects of riboflavin/UV-A crosslinking on porcine corneal mechanical anisotropy with optical coherence elastography.Evaluating the Effects of Riboflavin/UV-A and Rose-Bengal/Green Light Cross-Linking of the Rabbit Cornea by Noncontact Optical Coherence Elastography.Acoustic micro-tapping for non-contact 4D imaging of tissue elasticity.Wide-field optical coherence micro-elastography for intraoperative assessment of human breast cancer margins.3D mapping of elastic modulus using shear wave optical micro-elastography Non-contact single shot elastography using line field low coherence holography.Rapid, noninvasive quantitation of skin disease in systemic sclerosis using optical coherence elastography.In vivo volumetric quantitative micro-elastography of human skin.Lorentz force optical coherence elastography.Investigating Elastic Anisotropy of the Porcine Cornea as a Function of Intraocular Pressure With Optical Coherence Elastography.Classifying murine glomerulonephritis using optical coherence tomography and optical coherence elastography Common-path phase-sensitive optical coherence tomography provides enhanced phase stability and detection sensitivity for dynamic elastography.Optical coherence elastography assessment of corneal viscoelasticity with a modified Rayleigh-Lamb wave model.Applanation optical coherence elastography: noncontact measurement of intraocular pressure, corneal biomechanical properties, and corneal geometry with a single instrument.Biomechanical assessment of myocardial infarction using optical coherence elastography.Wide-field quantitative micro-elastography of human breast tissue.Phase-stability optimization of swept-source optical coherence tomography

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P2860

Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

http://www.wikidata.org/entity/Q35648101

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2015 nî lūn-bûn

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2015年论文

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2015年论文

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Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

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Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

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Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

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Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

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Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

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Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

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Phase-sensitive optical coherence elastography at 1.5 million A-Lines per second

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Achuth Nair

http://www.w3.org/2001/XMLSchema#string

Alexander Schill

http://www.w3.org/2001/XMLSchema#string

Chen Wu

http://www.w3.org/2001/XMLSchema#string

Chih-Hao Liu

http://www.w3.org/2001/XMLSchema#string

Jiasong Li

http://www.w3.org/2001/XMLSchema#string

Kirill V Larin

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P2860

Optical coherence elastography for tissue characterization: a review

Magnetic resonance elastography by direct visualization of propagating acoustic strain waves

Optical coherence tomography

Quantitative methods for reconstructing tissue biomechanical properties in optical coherence elastography: a comparison study

Quantitative assessment of corneal viscoelasticity using optical coherence elastography and a modified Rayleigh-Lamb equation

Differentiating untreated and cross-linked porcine corneas of the same measured stiffness with optical coherence elastography.

Noncontact depth-resolved micro-scale optical coherence elastography of the cornea.

Shear modulus imaging by direct visualization of propagating shear waves with phase-sensitive optical coherence tomography.

Noncontact quantitative biomechanical characterization of cardiac muscle using shear wave imaging optical coherence tomography.

Fourier Domain Mode Locking (FDML): A new laser operating regime and applications for optical coherence tomography.

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2588-2591

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scholarly article

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10.1364/OL.40.002588

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11

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40

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2015-06-01T00:00:00Z

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26030564

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5451255

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