Dispersion Rate of Single-Stage Virtually Imaged Phased Array Spectrometer for Two-Dimensional Imaging of the Cornea and Lens (Invited)

Xingdao He; Jin Xu; Mingxuan Liu; Jiulin Shi

doi:10.3788/LOP232462

[1] Scarcelli G, Yun S H. Multistage VIPA etalons for high-extinction parallel Brillouin spectroscopy[J]. Optics Express, 19, 10913-10922(2011).

[2] Bevilacqua C, Gomez J M, Fiuza U M et al. High-resolution line-scan Brillouin microscopy for live imaging of mechanical properties during embryo development[J]. Nature Methods, 20, 755-760(2023).

[3] Cheburkanov V, Du J W, Brogan D et al. Toward peripheral nerve mechanical characterization using Brillouin imaging spectroscopy[J]. Neurophotonics, 10, 035007(2023).

[4] Shi C J, Yan Y, Mehrmohammadi M et al. Versatile multimodal optical modality based on Brillouin light scattering and photoacoustic effect[J]. Optics Letters, 48, 3427-3430(2023).

[5] Meng Z K, Yakovlev V V. Optimizing signal collection efficiency of the VIPA-based Brillouin spectrometer[J]. Journal of Innovative Optical Health Sciences, 8, 1550021(2015).

[6] Zachary S, Meng Z K, Traverso Andrew J et al. Brillouin spectroscopy as a new method of screening for increased CSF total protein during bacterial meningitis[J]. Journal of Biophotonics, 8, 408-414(2015).

[7] Troyanova-Wood M, Meng Z K, Yakovlev V V. Differentiating melanoma and healthy tissues based on elasticity-specific Brillouin microspectroscopy[J]. Biomedical Optics Express, 10, 1774-1781(2019).

[8] Antonacci G, Lepert G, Paterson C et al. Elastic suppression in Brillouin imaging by destructive interference[J]. Applied Physics Letters, 107, 061102(2015).

[9] Antonacci G, De Panfilis S, Di Domenico G et al. Breaking the contrast limit in single-pass Fabry-Pérot spectrometers[J]. Physical Review Applied, 6, 054020(2016).

[10] Antonacci G, de Turris V, Rosa A et al. Background-deflection Brillouin microscopy reveals altered biomechanics of intracellular stress granules by ALS protein FUS[J]. Communications Biology, 1, 139(2018).

[11] Eltony A M, Shao P, Yun S H. Measuring mechanical anisotropy of the cornea with Brillouin microscopy[J]. Nature Communications, 13, 1354(2022).

[12] Zhang H Y, Asroui L, Randleman J B et al. Motion-tracking Brillouin microscopy for in-vivo corneal biomechanics mapping[J]. Biomedical Optics Express, 13, 6196-6210(2022).

[13] Ryu S, Martino N, Kwok S J J et al. Label-free histological imaging of tissues using Brillouin light scattering contrast[J]. Biomedical Optics Express, 12, 1437-1448(2021).

[14] Ambekar Y S, Singh M, Schill A W et al. Multimodal imaging system combining optical coherence tomography and Brillouin microscopy for neural tube imaging[J]. Optics Letters, 47, 1347-1350(2022).

[15] Yan G Q, Bazir A, Margueritat J et al. Evaluation of commercial virtually imaged phase array and Fabry-Pérot based Brillouin spectrometers for applications to biology[J]. Biomedical Optics Express, 11, 6933-6944(2020).

[16] Zhang J T, Fiore A, Yun S H et al. Line-scanning Brillouin microscopy for rapid non-invasive mechanical imaging[J]. Scientific Reports, 6, 35398(2016).

[17] Scarcelli G, Polacheck W J, Nia H T et al. Noncontact three-dimensional mapping of intracellular hydromechanical properties by Brillouin microscopy[J]. Nature Methods, 12, 1132-1134(2015).

[18] Scarcelli G, Yun S H. In vivo Brillouin optical microscopy of the human eye[J]. Optics Express, 20, 9197-9202(2012).

[19] Bevilacqua C, Sánchez-Iranzo H, Richter D et al. Imaging mechanical properties of sub-micron ECM in live zebrafish using Brillouin microscopy[J]. Biomedical Optics Express, 10, 1420-1431(2019).

[20] Kim M, Besner S, Ramier A et al. Shear Brillouin light scattering microscope[J]. Optics Express, 24, 319-328(2016).

[21] Li Z, Zang Z H, Han Y Q et al. Solid-state FMCW LiDAR with two-dimensional spectral scanning using a virtually imaged phased array[J]. Optics Express, 29, 16547-16562(2021).

[22] Shao P, Eltony A M, Seiler T G et al. Spatially-resolved Brillouin spectroscopy reveals biomechanical abnormalities in mild to advanced keratoconus in vivo[J]. Scientific Reports, 9, 7467(2019).

[23] Zhang J T, Scarcelli G. Mapping mechanical properties of biological materials via an add-on Brillouin module to confocal microscopes[J]. Nature Protocols, 16, 1251-1275(2021).

[24] Meng Z K, Yakovlev V V. Precise determination of Brillouin scattering spectrum using a virtually imaged phase array (VIPA) spectrometer and charge-coupled device (CCD) camera[J]. Applied Spectroscopy, 70, 1356-1363(2016).

[25] Giuseppe A. Brillouin scattering microscopy for mechanical imaging[D](2015).

[26] Antonacci G, Foreman M R, Paterson C et al. Spectral broadening in Brillouin imaging[J]. Applied Physics Letters, 103, 221105(2013).

[27] Shao P, Seiler T G, Eltony A M et al. Effects of corneal hydration on Brillouin microscopy in vivo[J]. Investigative Opthalmology & Visual Science, 59, 3020-3027(2018).

[28] Scarcelli G, Kling S, Quijano E et al. Brillouin microscopy of collagen crosslinking: noncontact depth-dependent analysis of corneal elastic modulus[J]. Investigative Ophthalmology & Visual Science, 54, 1418-1425(2013).

[29] Webb J N, Su J P, Scarcelli G. Mechanical outcome of accelerated corneal crosslinking evaluated by Brillouin microscopy[J]. Journal of Cataract & Refractive Surgery, 43, 1458-1463(2017).

[30] Scarcelli G, Kim P, Yun S H. In vivo measurement of age-related stiffening in the crystalline lens by Brillouin optical microscopy[J]. Biophysical Journal, 101, 1539-1545(2011).