Publications of Gregory W. Faris


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Atomic Spectroscopy, Biomedical Reporters and Fluorescence, High Power VUV Generation, In Vitro Diagnostics, Jet REMPI, Laser Development, Laser Induced Breakdown Spectroscopy, Lidar, Molecular Spectroscopy, Noninvasive Medical Diagnostics Optical Biomedical Imaging, Optical Tomography, Raman Scattering, Stimulated Scattering, VUV Spectroscopy

Atomic Spectroscopy

Investigations of radiative lifetimes in the 3p 5p configuration of neutral silicon
H. Bergström, G. W. Faris, H. Hallstadius, H. Lundberg, and A. Persson
Z. Phys. D 13, 29-31 (1989).

Radiative lifetime and hyperfine-structure studies on laser-evaporated boron
H. Bergström, G. W. Faris, H. Hallstadius, H. Lundberg, A. Persson, and C. G. Wahlström
Z. Phys. D 8, 17-23 (1988).

Spectroscopy on laser-evaporated boron and carbon
H. Bergström, G. Faris, H. Hallstadius, H. Lundberg, A. Persson, and C.-G. Wahlström
Laser Spectroscopy VIII, edited by W. Persson and S. Svanberg (Springer-Verlag, Berlin, 1987), pp. 181-182.

Biomedical Reporters and Fluorescence

Upconversion from aqueous phase lanthanide chelates
Xiao, X. D., J.P. Haushalter, and G. W. Faris
Optics Letters, 30.13, 1674-1676, doi:10:1364/OL.30.001674 (2005)
Abstract

Optical matching techniques and molecular upconverting reporters
G. W. Faris, M. Gerken, M. J. Dyer, and W. Wu
Proceedings of Inter-Institute Workshop on In Vivo Optical Imaging at the NIH, edited by Amir H. Gandjbakhche (Optical Society of America, Washington, DC, 2000), pp. 172-176.

Spectroscopic properties of upconverting phosphor reporters
Y. Chen, R. M. Kalas, and G. W. Faris
Proc. SPIE 3600, 151-154 (1999).
Abstract

Spectroscopic characterization of upconverting phosphor reporters
Y. Chen, E. A. Erber, and G. W. Faris
Proc. SPIE 2980, 338-342 (1997).
Abstract

Upconverting phosphors as reporters for immunoassay
G. W. Faris, W. H. Wright, M. P. Hall, Y. Chen, Y.-M. M. Yao, N. A. Mufti, and D. E. Cooper
OSA TOPS Vol. 22, Biomedical Optical Spectroscopy and Diagnostics / Therapeutic Laser Applications, edited by Eva M. Sevick-Muraca, Joseph A. Izatt, and Marwood N. Ediger (Optical Society of America, Washington, DC, 1998), pp. 122-123.

Spectrally resolved absolute fluorescence cross sections for bacillus spores
G. W. Faris, R. A. Copeland, K. Mortelmans, and B. V. Bronk
Appl. Opt. 36, 958-967 (1997).
Abstract

Upconverting reporters for biomedical diagnostics: Applications in antibody and DNA detection
G. W. Faris, W. H. Wright, S. Pati, L. V. Schneider, and D. A. Zarling
Biomedical Optical Spectroscopy and Diagnostics, OSA Trends in Optics and Photonics Vol. 3, edited by E. Sevick-Muraca and D. Benaron (Optical Society of America, Washington, DC, 1996), pp. 225-228.

High Power VUV Generation

Two-photon-resonant difference-frequency mixing with an ArF excimer laser: Vacuum ultraviolet generation and multiphoton spectroscopy
G. W. Faris, S. A. Meyer, M. J. Dyer, and M. J. Banks
J. Opt. Soc. Am. B 17, 1856-1866 (2000).
Abstract

High-power Lyman-a source generated with an ArF excimer laser
S. A. Meyer and G. W. Faris
Opt. Lett. 23, 204-206 (1998).
Abstract

Raman-shifting ArF excimer laser radiation for vacuum-ultraviolet multiphoton spectroscopy
G. W. Faris and M. J. Dyer
J. Opt. Soc. Am. B 10, 2273-2286 (1993).

In-Vitro Diagnostics

Light-driven formation and rupture of droplet bilayers
Dixit, S.S., H. Kim, A. Vasilyev, A. Eid, and G.W. Faris
Langmuir, 26.9, 6193-6200 (2010)
Abstract

Nanodroplet real-time PCR system with laser assisted heating
Kim, H., S.S. Dixit, C.J. Green, and G.W. Faris
Optics Express, 17.1, 218-227 (2009)
Abstract

Petri dish PCR: laser-heated reactions in nanoliter droplet arrays
Kim, H., S. Vishniakou, and G.W. Faris
Lab on a Chip, 9, 1230-1235 (2009)
Abstract

Strategy for photostable proximity bioassays using lanthanides
Haushalter, J.P. and G.W. Faris
Applied Optics, 46.10, 1918-1923 (2007)
Abstract

Optically addressed droplet-based protein assay
Kotz, K.T., Y. Gu, and G.W. Faris.
Journal of the American Chemical Society, 127.16, 5736-5737 (2005)
Abstract

Optical microfluidics
Kotz, K.T., K.A. Noble, and G.W. Faris
Applied Physics Letters, 85, 2658-2660 (2004)
Abstract

Jet REMP

On-line detection of aromatic combustion by-products from a lean methane flame using Jet-REMPI-TOFMS
Oser, H., L. Oudejans, M.J. Coggiola, G.W. Faris, D.R. Crosley, B.K. Gullett
Organohalogen Compounds, 59, 69-72 (2002)
Link to Article

Development of a jet-REMPI continuous monitor for environmental applications
H. Oser, M. J. Coggiola, G. W. Faris, S. E. Young, B. Volquardsen, and D. R. Crosley
Appl. Opt. 40, 859-865 (2001).
Abstract

Congener-specific detection of dioxins using jet-REMPI
H. Oser, K. Copic, M. J. Coggiola, G. W. Faris, and D. R. Crosley
Chemosphere 43, 469-477 (2001).

Laser Development

Laser linewidth narrowing induced by amplifier gain saturation
G. W. Faris, M. J. Dyer, and W. K. Bischel
Opt. Lett. 19, 1529-1531 (1994).

Picosecond double pass amplifier
R. Miles, G. Laufer, C. Paddock, and G. Faris
Appl. Opt. 19, 3595 (1980).

Laser Induced Breakdown Spectroscopy

Influence of ambient conditions on the laser air spark
S. Yalcin, D. R. Crosley, G. P. Smith, and G. W. Faris
Appl. Phys. B 68, 121-130 (1999).
Abstract

Quantification for toxic metal monitoring using laser spark spectroscopy
S. Yalcin, D. R. Crosley, G. P. Smith, and G. W. Faris
Environmental Monitoring and Instrumentation, edited by Frank Bucholtz (Optical Society of America, Washington, DC, 1997), Vol. 8, pp. 38-39.

Spectroscopic characterization of laser-produced plasmas for in situ toxic metal monitoring
S. Yalcin, D. R. Crosley, G. P. Smith, and G. W. Faris
Hazardous Waste & Hazardous Materials 13, 51-61 (1996).

Lidar

Lidar search for atmospheric atomic mercury in Icelandic geothermal fields
H. Edner, G. W. Faris, A. Sunesson, S. Svanberg, J. Ö. Bjarnason, H. Kristmannsdóttir, and K. H. Sigurdsson
J. Geophys. Res. 96, 2977-2986 (1991).

Lidar measurements of atmospheric mercury
H. Edner, G. W. Faris, P. Ragnarsson, A. Sunesson, and S. Svanberg
Proc. SPIE 1269, 73-80 (1990).

Atmospheric atomic mercury monitoring using differential absorption lidar techniques
H. Edner, G. W. Faris, A. Sunesson, and S. Svanberg
Appl. Opt. 28, 921-930 (1989).

Molecular Spectroscopy

Optical excitation of the b⁴S^- - X²P transition in NO
M. J. Dyer, G. W. Faris, P. C. Cosby, D. L. Huestis, and T. G. Slanger
Chem. Phys. 171, 237-252 (1993).

Observation of NO B²P (v=3) from X²P (v=0) absorptions with 1+1 multiphoton ionization: precision line position measurements and parity assignment of the B²P state
G. W. Faris and P. C. Cosby
J. Chem. Phys. 97, 7073-7086 (1992).

The radiative lifetime of NO (b⁴S_-)
G. W. Faris, M. J. Dyer, and T. G. Slanger
Chem. Phys. Lett. 199, 309-313 (1992).

Two-photon spectroscopy of the F¹P_g and f³P_g states of molecular fluorine
G. W. Faris, M. J. Dyer, D. L. Huestis, and W. K. Bischel
J. Chem. Phys. 97, 5964-5969 (1992).

Noninvasive Medical Diagnostics

Frequency domain measurements on turbid media with strong absorption using the PN approximation
Baltes, C. and G.W. Faris
Applied Optics, 48, 2991-3000 (2009)
Abstract

P-N approximation for frequency-domain measurements in scattering media
Faris, G.W.
Applied Optics, 44.11, 2058-2071 (2005)
Abstract

Diffusion equation boundary conditions for the interface between turbid media: a comment
Faris, G.W.
Journal of the Optical Society of America A: Optics Images Science and Vision, 19.3, 519-520 (2002)
Abstract

Experimental tests of a two-layer Monte Carlo – diffusion hybrid model for photon migration in the frequency domain
G. W. Faris, G. Alexandrakis, D. R. Busch, and M. S. Patterson
Proc. SPIE 4250, 313-318 (2001).
Abstract

Determination of the optical properties of two-layer turbid media using a frequency domain hybrid Monte Carlo diffusion model
G. Alexandrakis, D. R. Busch, G. W. Faris, and M. S. Patterson
Appl. Opt. 40, 3810-3821 (2001).
Abstract

Frequency-domain technique for optical property measurements in moderately scattering media
M. Gerken, D. Godfrey, and G. W. Faris
Opt. Lett. 25, 7-9 (2000).
Abstract

Frequency-domain immersion technique for accurate optical property measurements of turbid media
M. Gerken and G. W. Faris
Opt. Lett. 24, 1726-1728 (1999).
Abstract

High-precision frequency-domain measurements of the optical properties of turbid media
M. Gerken and G. W. Faris
Opt. Lett. 24, 930-932 (1999).
Abstract

Application of frequency domain techniques to samples with moderate scatter
M. Gerken, D. Godfrey, and G. W. Faris
Proc. SPIE 3599, 86-92 (1999).
Abstract

High-accuracy optical-property measurements using a frequency domain technique
M. Gerken and G. W. Faris
Proc. SPIE 3597, 593-600 (1999).

Accuracy tests of frequency domain immersion technique
E. Briggs and G. W. Faris
OSA TOPS Vol. 21, Advances in Optical Imaging and Photon Migration, edited by James G. Fujimoto and Michael S. Patterson (Optical Society of America, Washington, DC, 1998), pp. 40-41.

Determination of tissue properties by immersion in a matched scattering fluid
X. Wu, L. Stinger, and G. W. Faris
Proc. SPIE 2979, 300-306 (1997).
Abstract

Optical Biomedical Imaging

Near infrared transillumination imaging of breast cancer with vasoactive inhalation contrast
Dixit, S.S., H.K. Kim, C. Comstock, and G.W. Faris
Biomedical Optics Express, 1, 295-309 (2010)
Abstract

Development of a transillumination infrared modality for differential vasoactive optical imaging
Dixit, S.S., H. Kim, B. Visser, and G.W. Faris
Applied Optics, 48, D178-D186 (2009)
Abstract

Inspiratory contrast for in vivo optical imaging
Kotz, K.T., S.S. Dixit, A.D. Gibbs, A.D., J.M. Orduna, Z. Haroon, K. Amin, and G.W. Faris
Optics Express, 16.1, 19-31 (2008)
Abstract

Topics in biomedical optics: Introduction
Faris, G.W., V. Ntziachristos, D.M. Rector, and L. Wang
Applied Optics, 46.10, 1595-1596 (2007)
Abstract

Compensated transillumination
X. Wu and G. W. Faris
Appl. Opt. 38, 4262-4265 (1999).
Abstract

Compensated transillumination of a human hand
X. Wu and G. Faris
OSA TOPS Vol. 21, Advances in Optical Imaging and Photon Migration, edited by James G. Fujimoto and Michael S. Patterson (Optical Society of America, Washington, DC, 1998), pp. 260-261.

Convolution backprojection reconstruction from photon density waves
P. M. Eckman and G. W. Faris
OSA Trends in Optics and Photonics on Advances in Optical Imaging and Photon Migration. Vol. 2 From the Topical Meeting, edited by R. R. Alfano and J. G. Fujimoto (Optical Society of America, Washington, DC, 1996), pp. 305-306.

Potential for optical imaging in the 1-1.3 micron range using an upconverting time gate
G. W. Faris and M. Banks
Proc. SPIE 2389, 35-39 (1995).
Abstract

Upconverting time gate for imaging through highly scattering media
G. W. Faris and M. Banks
Opt. Lett. 19, 1813-1815 (1994).

Imaging through highly scattering media with a novel upconverting time gate
G. W. Faris and M. Banks
OSA Proceedings on Advances in Optical Imaging and Photon Migration, edited by R. R. Alfano (Optical Society of America, Washington, DC, 1994), Vol. 21, pp. 139-142.

Optical Tomography

Density measurements in a DC arc jet using scanned beam deflection tomography
G. W. Faris, E. Brinkman, and J. B. Jeffries
Opt. Express 7, 447- 460 (2000).
Abstract

Two-wavelength beam deflection technique for electron density measurements in laser-produced plasmas
G. W. Faris and H. Bergström
Appl. Opt. 30, 2212-2218 (1991).

Tunable differential interferometer for optical tomography
G. W. Faris and H. M. Hertz
Appl. Opt. 28, 4662-4667 (1989).

Three-dimensional beam-deflection optical tomography of a supersonic jet
G. W. Faris and R. L. Byer
Appl. Opt. 27, 5202-5212 (1988).

Emission tomography of flame radicals
H. M. Hertz and G. W. Faris
Opt. Lett. 13, 351-353 (1988).

Quantitative three-dimensional optical tomographic imaging of supersonic flows
G. W. Faris and R. L. Byer
Science 238, 1700-1702 (1987).

Beam-deflection optical tomography of a flame
G. W. Faris and R. L. Byer
Opt. Lett. 12, 155-157 (1987).

Beam-deflection optical tomography
G. W. Faris and R. L. Byer
Opt. Lett. 12, 72-74 (1987).

Quantitative optical tomographic imaging of a supersonic jet
G. W. Faris and R. L. Byer
Opt. Lett. 11, 413-415 (1986).

Experimental optical fan beam tomography
K. E. Bennett, G. W. Faris, and R. L. Byer
Appl. Opt. 23, 2678-2685 (1984).

Raman Scattering

Wavelength dependence of the Raman cross section for liquid water
G. W. Faris and R. A. Copeland
Appl. Opt. 36, 2686-2688 (1997).
Abstract

Ratio of oxygen and nitrogen Raman cross sections in the ultraviolet
G. W. Faris and R. A. Copeland
Appl. Opt. 36, 2684-2685 (1997).
Abstract

Stimulated Scattering

Stimulated Rayleigh and Brillouin scattering in a supercritical fluid
Kalogerakis, K.S., B.H. Blehm, R.E. Forman, C. Jirauschek, and G.W. Faris
Journal of the Optical Society of America-B, 24.9, 2040-2045 (2007)
Abstract

High-spectral-resolution stimulated Rayleigh-Brillouin scattering at 1 mu m
Faris, G.W., M. Gerken, C. Jirauschek, D. Hogan, and Y. Chen
Optics Letters, 26.23, 1894-1896 (2001)
Abstract

Electrostrictive and thermal stimulated Rayleigh spectroscopy in liquids
Jirauschek, C., E.M. Jeffrey, and G.W. Faris
Physical Review Letters, 87.23, 233902 (2001)
Abstract

High-resolution stimulated Brillouin gain spectroscopy in glasses and crystals
G. W. Faris, L. E. Jusinski, and A. P. Hickman
J. Opt. Soc. Am. B 10, 587-599 (1993).

Transient effects on stimulated Brillouin scattering
G. W. Faris, M. J. Dyer, and A. Peet Hickman
Opt. Lett. 17, 1049-1051 (1992).

High-resolution Brillouin gain spectroscopy in fused silica
G. W. Faris, L. E. Jusinski, M. J. Dyer, W. K. Bischel, and A. P. Hickman
Opt. Lett. 15, 703-705 (1990).

Brillouin gain spectroscopy in glasses and crystals
G. W. Faris
Applied Laser Spectroscopy, edited by Wolfgang Demtröder and Massimo Inguscio (Plenum Press, New York, 1990), pp. 307-312.

High resolution stimulated Raman-Brillouin spectroscopy in gases and solids
W. K. Bischel, M. J. Dyer, G. W. Faris, A. P. Hickman, and L. E. Jusinski
Laser Spectroscopy IX, edited by Michael S. Feld and John E. Thomas (Academic Press, Boston, 1989), pp. 436-438.

VUV Spectroscopy

The O(¹D) yield from O₂ photodissociation near H Lyman-a (121.6 nm)
J. Lacoursiére, S. A. Meyer, G. W. Faris, T. G. Slanger, B. R. Lewis, and S. T. Gibson
J. Chem. Phys. 110, 1949-1958 (1999).

Two-photon excitation of neon at 133 nm
G. W. Faris and M. J. Dyer
Opt. Lett. 18, 382-384 (1993).

Multiphoton spectroscopy using tunable vuv radiation from a Raman-shifted excimer laser
G. W. Faris and M. J. Dyer
Short-Wavelength Coherent Radiation: Generation and Applications, edited by Phillip H. Bucksbaum and Natale M. Ceglio (Optical Society of America, Washington, DC, 1991), pp. 58-61.

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