[1] Arash Darafsheh, Anatole Lupu, S. A. Burand, Thomas C. Hutchens, Nathaniel M. Fried, and Vasily N. Astratov, “Photonic nanojet-induced modes: fundamentals and applications,” Proc. SPIE 8264, 2012. DOI
[2] Thomas C. Hutchens, Arash Darafsheh, Amir Fardad, Andrew N. Antoszyk, Howard S. Ying, Vasily N. Astratov, and Nathaniel M. Fried, “Novel microsphere chain fiber tips for use in mid-infrared ophthalmic laser surgery,” Proc. SPIE 8218, 2012. DOI
[3] Charlotte D. Stahl, Serhat Tozburun, Thomas C. Hutchens, Gwen A. Lagoda, Arthur L. Burnett, Matthew D. Keller, and Nathaniel M. Fried, “Comparison of three pulsed infrared lasers for optical stimulation of the rat prostate cavernous nerves,” Proc. SPIE 8565, 2013. DOI
[4] Serhat Tozburun, Charlotte D. Stahl, Thomas C. Hutchens, Gwen A. Lagoda, Arthur L. Burnett, and Nathaniel M. Fried, “Subsurface optical stimulation of rat prostate cavernous nerves using a continuous wave, single mode, 1490 nm diode laser,” Proc. SPIE 8565, 2013. DOI
[5] Christopher M. Cilip, Sarah B. Rosenbury, Nicholas Giglio, Thomas C. Hutchens, Gino R. Schweinsberger, Duane E. Kerr, Cassandra Latimer, William H. Nau, and Nathaniel M. Fried, “Thermal sealing of blood vessels using infrared lasers,” Proc. SPIE 8565, 2013. DOI
[6] Thomas C. Hutchens & Arash Darafsheh, Amir Fardad, Andrew N. Antoszyk, Howard S. Ying, Nathaniel M. Fried, and Vasily N. Astratov, “Contact focusing multimodal probes for potential use in ophthalmic surgery with the Erbium:YAG laser,” Proc. SPIE 8567, 2013. DOI
[7] Thomas C. Hutchens, Richard L. Blackmon, Pierce B. Irby, and Nathaniel M. Fried, “Comparison of detachable and tapered fiber optic tips for use in thulium fiber laser lithotripsy,” Proc. SPIE 8565, 2013. DOI
[8] Christopher R. Wilson, Thomas C. Hutchens, Luke A. Hardy, Pierce B. Irby, and Nathaniel M. Fried, “An integrated fiber and stone basket device for use in thulium fiber laser lithotripsy,” Proc. SPIE 8926, 2014. DOI
[9] Richard L. Blackmon, Thomas C. Hutchens, Luke A. Hardy, Pierce B. Irby, and Nathaniel M. Fried, “Characterization of a 50-µm-core optical fiber for potential use in thulium fiber laser lithotripsy,” Proc. SPIE 8926, 2014. DOI
[10] Nicholas C. Giglio, Thomas C. Hutchens, William C. Perkins, Cassandra Latimer, Arlen Ward, William H. Nau, and Nathaniel M. Fried, “Rapid infrared laser sealing and cutting of porcine renel vessels, ex vivo,” Proc. SPIE 8926, 2014. DOI
[11] Christopher M. Cilip, Thomas C. Hutchens, Duane E. Kerr, Cassandra Latimer, Sarah B. Rosenbury, Nicholas C. Giglio, Gino R. Schweinsberger, William C. Perkins, Christopher R. Wilson, William H. Nau, and Nathaniel M. Fried, “Infrared laser sealing of porcine tissues: preliminary in vivo studies,” Proc. SPIE 9303, 2015. DOI
[12] Thomas C. Hutchens, David A. Gonzalez, Pierce B. Irby, and Nathaniel M. Fried, “Thulium fiber laser lithotripsy using a muzzle brake fiber tip,” Proc. SPIE 10038, 2017. DOI
[13] Luke A. Hardy, Thomas C. Hutchens, Eric R. Larson, David A. Gonzalez, Chun-Hung Chang, William H. Nau, and Nathaniel M. Fried, “Laproscopic prototype for optical sealing of renal blood vessels,” Proc. SPIE 10038, 2017. DOI
[14] David A. Gonzalez, Luke A. Hardy, Thomas C. Hutchens, Pierce B. Irby, and Nathaniel M. Fried, “Thulium fiber laser induced vapor bubbles using bare, tapered, ball, hollow steel, and muzzle brake fiber optic tips,” Proc. SPIE 10468, 2018. DOI
[15] Christopher R. Wilson, Thomas C. Hutchens, Lynda E. Busse, Jesse A. Frantz, L. Brandon Shaw, Jas S. Sanghera, and Ishwar D. Aggarwal, “Long-duration CW laser testing of optical windows with random antireflective surface structures on both interfaces: preliminary results,” Proc. SPIE 10627, 2018. DOI
[16] Kevin J. Major, Kenneth J. Ewing, Jasbinder S. Sanghera, Thomas C. Hutchens, Menelaos K. Poutous, Matthew G. Potter, Christopher R. Wilson, Ishwar D. Aggarwal, Mikella E. Farrell, Ellen L. Holthoff, and Paul M. Pellegrino, “High-confidence discrimination of explosive materials on surfaces using a non-spectroscopic optical biomimetic sensing method,” Proc. SPIE 10629, 2018. DOI
[17] Christopher R. Wilson, Thomas C. Hutchens, Jesse A. Frantz, Lynda E. Busse, L. Brandon Shaw, Jas S. Sanghera, and Ishwar D. Aggarwal, “Laser damage testing of windows with anti-reflection structured surfaces for high power continuous-wave near-infrared laser applications,” Proc. SPIE 10985, 2019. DOI
[18] Thomas C. Hutchens, Christopher R. Wilson, Matthew G. Potter, Menelaos K. Poutous, Kevin J. Major, Kenneth J. Ewing, Jasbinder S. Sanghera, and Ishwar D. Aggarwal, “Infrared reflectance characterization of ammonium nitrate residue on roughened aluminum for potential bioinspired stand-off sensor,” Proc. SPIE 11010, 2019. DOI
[19] Kevin J. Major, Jasbinder S. Sanghera, Thomas C. Hutchens, Menelaos K. Poutous, Ishwar D. Aggarwal, and Kenneth J. Ewing, “Examination of stochastic and ordered methods to select optical filters for discrimination between chemical vibrational absorption bands,” Proc. SPIE 11010, 2019. DOI
[20] Kevin J. Major, Jasbinder S. Sanghera, Mikella E. Farrell, Ellen L. Holthoff, Paul M. Pellegrino, Thomas C. Hutchens, Ishwar D. Aggarwal, and Kenneth J Ewing, “Experimental considerations for the proximate standoff detection of highly scattering hazardous materials using infrared techniques,” Proc. SPIE 11010, 2019. DOI
[21] Christopher R. Wilson, Thomas C. Hutchens, Lynda E. Busse, Jesse A. Frantz, L. Brandon Shaw, Jas S. Sanghera, and Ishwar D. Aggarwal, “Anti-reflective structured surfaces on soda-lime windows for high power laser applications,” Proc. SPIE 11403, 2020. DOI
[22] Nicholas C. Giglio, Thomas C. Hutchens, Christopher R. Wilson, David A. Gonzalez, and Nathaniel M. Fried, “Surfactant Enhanced Laser-Induced Vapor Bubbles for Potential use in Thulium Fiber Laser Lithotripsy,” IEEE Engineering in Medicine & Biology Society (EMBC), Montreal, QC, Canada, pp. 5045-5048, 2020. DOI
[23] Thomas C. Hutchens, Nicholas C. Giglio, Christopher M. Cilip, Sarah B. Rosenbury, Luke A. Hardy, Duane E. Kerr, William H. Nau, and Nathaniel M. Fried, “Novel Optical Linear Beam Shaping Designs for use in Laparoscopic Laser Sealing of Vascular Tissues,” IEEE Engineering in Medicine & Biology Society (EMBC), Montreal, QC, Canada, pp. 5049-5052, 2020. DOI
[24] Nicholas C. Giglio, Thomas C. Hutchens, Christopher M. Cilip, and Nathaniel M. Fried, “Optical coherence tomography for use in infrared laser sealing of blood vessels,” IEEE Photonics Conference (IPC), Vancouver, BC, Canada, pp. 1-2, 2020. DOI
[25] Grant W. Bidney, Boya Jin, Lou Deguzman, Thomas C. Hutchens, Joshua M. Duran, Gamini Ariyawansa, Igor Anisimov, Nicholaos I. Limberopoulos, Augustine M. Urbas, Kenneth W. Allen, Sarath D. Gunapala, and Vasily N. Astratov, “Anisotropic Wet Etching of Si as a Fabrication Tool Enabling 3-D Microphotonics Structures and Devices,” NAECON 2021 – IEEE National Aerospace and Electronics Conference, pp. 146-149, 2021. DOI
[26] Grant W. Bidney, Boya Jin, Lou Deguzman, Thomas C. Hutchens, Joshua M. Duran, Gamini Ariyawansa, Igor Anisimov, Nicholaos I. Limberopoulos, Augustine M. Urbas, Kenneth W. Allen, Sarath D. Gunapala, and Vasily N. Astratov “Fabrication of 3-D light concentrating microphotonic structures by anisotropic wet etching of silicon,” Proc. SPIE 12012, 2022. DOI
[27] Thomas C. Hutchens, Christopher R. Wilson, Ishwar D. Aggarwal, Lynda E. Busse, Jesse A. Frantz, L. Brandon Shaw, and Jas S. Sanghera, “Broadband transmission enhancement of B270 via random antireflective structured surfaces,” Proc. SPIE 12103, 2022. DOI
[28] Woheeb M. Saeed, Thomas C. Hutchens, and Nathaniel M. Fried, “Comparison of surfactants for enhancing laser-induced vapor bubble dimensions,” Proc. SPIE 12353, 2023. DOI