Nikhil N Mutyal

Overview

Explore the profile of Nikhil N Mutyal including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 17

Citations 212

Followers 0

Related Specialties

Ophthalmology

Biomedical Engineering

Science

Top 10 Co-Authors

Vadim Backman

Andrew J Radosevich

Jeremy D Rogers

Hemant K Roy

Vladimir Turzhitsky

Michael J Goldberg

Ji Yi

Bradley Gould

Shailesh Bajaj

Laura K Bianchi

Published In

J Biomed Opt

IEEE J Sel Top Quantum Electron

Opt Express

PLoS One

Curr Sci

Affiliations

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Recent Articles

11.

A fiber optic probe design to measure depth-limited optical properties in-vivo with low-coherence enhanced backscattering (LEBS) spectroscopy

Mutyal N, Radosevich A, Gould B, Rogers J, Gomes A, Turzhitsky V, et al.

Opt Express . 2012 Oct; 20(18):19643-57. PMID: 23037017

Low-coherence enhanced backscattering (LEBS) spectroscopy is an angular resolved backscattering technique that is sensitive to sub-diffusion light transport length scales in which information about scattering phase function is preserved. Our...

12.

Measurement of the spatial backscattering impulse-response at short length scales with polarized enhanced backscattering

Radosevich A, Mutyal N, Turzhitsky V, Rogers J, Yi J, Taflove A, et al.

Opt Lett . 2011 Dec; 36(24):4737-9. PMID: 22179867

In this Letter, we describe an easy to implement technique to measure the spatial backscattering impulse-response at length scales shorter than a transport mean free path with resolution of better...

13.

Multiple scattering model for the penetration depth of low-coherence enhanced backscattering

Turzhitsky V, Mutyal N, Radosevich A, Backman V

J Biomed Opt . 2011 Sep; 16(9):097006. PMID: 21950941

Low-coherence enhanced backscattering (LEBS) is a depth-selective self-interference phenomenon that originates from light traveling time-reversed paths in a scattering medium. The depth selectivity of LEBS and its sensitivity to optical...

14.

Measurement of optical scattering properties with low-coherence enhanced backscattering spectroscopy

Turzhitsky V, Radosevich A, Rogers J, Mutyal N, Backman V

J Biomed Opt . 2011 Jul; 16(6):067007. PMID: 21721828

Low-coherence enhanced backscattering (LEBS) is a depth selective technique that allows noninvasive characterization of turbid media such as biological tissue. LEBS provides a spectral measurement of the tissue reflectance distribution...

15.

Alternate formulation of enhanced backscattering as phase conjugation and diffraction: derivation and experimental observation

Rogers J, Stoyneva V, Turzhitsky V, Mutyal N, Pradhan P, Capoglu I, et al.

Opt Express . 2011 Jul; 19(13):11922-31. PMID: 21716426

Enhanced backscattering (EBS), also known as weak localization of light, is derived using the Huygens-Fresnel principle and backscattering is generally shown to be the sum of an incoherent baseline and...

16.

Depth-resolved measurement of mucosal microvascular blood content using  low-coherence enhanced backscattering spectroscopy

Radosevich A, Turzhitsky V, Mutyal N, Rogers J, Stoyneva V, Tiwari A, et al.

Biomed Opt Express . 2011 Jan; 1(4):1196-1208. PMID: 21258541

Low-coherence enhanced backscattering (LEBS) spectroscopy is a light scattering technique which uses partial spatial coherence broadband illumination to interrogate the optical properties at sub-diffusion length scales. In this work, we...

17.

Characterization of light transport in scattering media at sub-diffusion length scales with Low-coherence Enhanced Backscattering

Turzhitsky V, Rogers J, Mutyal N, Roy H, Backman V

IEEE J Sel Top Quantum Electron . 2010 Nov; 16(3):619-626. PMID: 21037980

Low-coherence enhanced backscattering (LEBS) is a technique that has recently shown promise for tissue characterization and the detection of early pre-cancer. Although several Monte Carlo models of LEBS have been...