{"id":21,"date":"2012-11-07T23:24:23","date_gmt":"2012-11-07T23:24:23","guid":{"rendered":"http:\/\/pages.charlotte.edu\/faramarz-farahi\/?page_id=21"},"modified":"2013-04-05T17:42:00","modified_gmt":"2013-04-05T17:42:00","slug":"publications","status":"publish","type":"page","link":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"<p><em>More than 200 publications.\u00a0This is a partial list.\u00a0\u00a0<\/em><\/p>\n<div>\n<ul>\n<li>M. Abolbashari,\u00a0F. Magalh\u00e3es, F. M. Ara\u00fajo, M.V. Correia,\u00a0<strong>F. Farahi<\/strong>\u00a0&#8220;High<\/li>\n<li>dynamic range compressive imaging: a programmable imaging system&#8221; J. Optical Engineering, Opt. Eng. 51, 071407 (Jun 11, 2012)<\/li>\n<li>F. Magalh\u00e3es,<sup>\u00a0<\/sup>M. Abolbashari, F. M. Ara\u00fajo, M.V. Correia,\u00a0<strong>F. Farahi<\/strong>\u00a0&#8220;High resolution hyperspectral single-pixel imaging system based on compressive sensing&#8221; J. Optical Engineering,\u00a051, 071406 (May 25, 2012)<\/li>\n<li>M. Abolbashari, A. S. Gerges, A. Davies,\u00a0<strong>F. Farahi<\/strong>, \u201cImage continuity at different levels of zoom for fringe patterns\u201d Optics Express, p.7-16, Vol. 20, No. 1, January 2012.<\/li>\n<li>M. Mayeh,\u00a0<strong>F. Farahi<\/strong>, \u201cTailoring Gaussian Laser Beam Shape Through Controlled Etching of Single-Mode and Multimode Fibers: Simulation and Experimental Studies\u201d IEEE Sensors Journal, p. 168-173, Vol. 12, No.1, January 2012.<\/li>\n<li>F. Magalh\u00e3es, F. M. Ara\u00fajo, M. V. Correia, M. Abolbashari<strong>, F. Farahi<\/strong>, \u201cActive illumination single-pixel camera based on compressive sensing\u201d, Applied Optics, Vol. 50, No. 4, p. 405, 2011.<\/li>\n<li>S.\u00a0Tozburun, G.A. Lagoda, M. Mayeh, A.L. Burnett,\u00a0<strong>F. Farahi<\/strong>, N.M. Fried, \u201cA compact laparoscopic probe for optical stimulation of the prostate nerves\u201d\u00a0\u00a0IEEE Journal of Selected Topics in Quantum Electronics,\u00a0Vol.16, No. 4, p. 941, 2010.<\/li>\n<li>S. H. Aref, R. Amezcua-Correac, J. P. Carvalho, O. Fraz\u00e3o, J. L. Santos,\u00a0F. M. Ara\u00fajo, H. Latifi,\u00a0<strong>F. Farahi<\/strong>, L. A. Ferreira, J. C. Knight, \u201cSpectral Characterization of a Photonic Band-Gap Fiber for Sensing Applications\u201d Applied Optics, Vol. 49, Issue 10, pp. 1870-1875 2010.<\/li>\n<li>D. Purcell, A. Suratkar, A. Davies,\u00a0<strong>F. Farahi<\/strong>, H. Ottevaere, and H. Thienpont, \u00a0\u201cInterferometric technique for faceted microstructure metrology using an index matching liquid\u201d Applied Optics, Vol. 49, No. 4, p. 732, February 2010.<\/li>\n<li>S. H. Aref, R. Amezcua-Correa, J. P. Carvalho, O. Fraz\u00e3o, P. Caldas, J. L.\u00a0Santos, F. M. Ara\u00fajo, H. Latifi,\u00a0<strong>F. Farahi<\/strong>, L. A. Ferreira, J. C. Knight, \u201cModal interferometer based on hollow-core photonic crystal fiber for strain and temperature measurement\u201d Optics Express, Vol. 17, No. 21, p. 18669, 12 October 2009.<\/li>\n<li>K. Edward,\u00a0<strong>F. Farahi<\/strong>, B. Hocken, \u201cHybrid shear force feedback\/scanning quantitative phase microscopy applied to subsurface imaging\u201d\u00a0Optics Express,\u00a0Vol.17, No. 21, p. 18409, 12 October 2009.<\/li>\n<li>S. H. Aref, O. Fraz\u00e3o, P. Caldas, L. A. Ferreira, F. M. Ara\u00fajo, J. L. Santos, H. Latifi, P. Foy, T. Hawkins, J. Ballato, T. Her,\u00a0<strong>F. Farahi<\/strong>, \u201cModal Interferometer Based on ARROW Fiber for Strain and Temperature Measurement\u201d IEEE Photonics Technology Letters, Vol.21, No. 21, November 1, 2009<\/li>\n<li>O. Fraz\u00e3o, S. H. Aref, J. M. Baptista, J. L. Santos, H. Latifi,\u00a0<strong>F. Farahi<\/strong>, J. Kobelke, K. Schuster, \u201cFabry\u2013Perot Cavity Based on a Suspended-Core Fiber for Strain and Temperature Measurement\u201d IEEE Photonics Technology Letters, Vol. 21, No. 17, September 1, 2009<\/li>\n<li>M.\u00a0Mayeh, J. Viegas, P. Srinivasan, P. Marques, J. L. Santos, E. G. Johnson,\u00a0<strong>F. Farahi<\/strong>, \u201cDesign and Fabrication of Slotted Multimode Interference Devices for Chemical and Biological Sensing\u201d\u00a0Journal of Sensors, Article ID 470175,\u00a0doi:10.1155\/2009\/470175, 2009.<\/li>\n<li>K. Edward, T.W. Mayes, R. Hocken,\u00a0<strong>F. Farahi<\/strong>, \u201cTri-modal imaging system capable of quantitative phase imaging without 2\u03c0\u00a0ambiguities\u201d Optics Lett. Vol.33, P.216 , 2008.<\/li>\n<li>P.A.S. Jorge, C. Maule, A.J. Silva, R. Benrashid, J.L. Santos,\u00a0<strong>F. Farahi<\/strong>, \u201cDual sensing of oxygen and temperature using quantum dots and a ruthenium complex\u201d\u00a0Analytica Chimica Acta\u00a0<strong>6 0 6<\/strong>, 223\u2013229, 2008.<\/li>\n<li><strong>F. Farahi<\/strong>, \u201cFabrication and metrology of micro-and nano-optics\u201d, SPIE Newsroom, 10.1117.21200710.0900, 2007.<\/li>\n<li>P. Jorge, M.A. Martins, T. Trindade, J.L. Santos,\u00a0<strong>F. Farahi,<\/strong>\u00a0\u201cOptical Fiber Sensing Using Quantum Dots\u201d<em>\u00a0Sensors,\u00a0<strong>7<\/strong><\/em><strong>,<\/strong>\u00a03488-3534,\u00a02007.<\/li>\n<li>O. Fraz\u00e3o, J. Viegas, P. Caldas, J. L. Santos, F. M. Ara\u00fajo, L.A. Ferreira,\u00a0<strong>F. Farahi<\/strong>, \u201cAll-fiber Mach-Zehnder curvature sensor based on multimode interference combined with a long\u00a0period grating\u201d,\u00a0Optics Letters\u00a0<strong>32<\/strong>, 3074-3076, 2007.<\/li>\n<li>D. Purcell, A. Davies,\u00a0<strong>F. Farahi<\/strong>, \u201cEffective wavelength calibration for moir\u00e9 fringe projection\u201d J. Applied Optics, Vol. 45, p. 8629, (2006).<\/li>\n<li>P.A.S. Jorge, M. Mayeh, R. Benrashid, P. Caldas, J.L. Santos,\u00a0<strong>F. Farahi,<\/strong>\u00a0\u201cQuantum dots as self-referenced optical fiber temperature probes for luminescent chemical sensors\u201d J. Meas. Sci. Technology Vol. 17,p. 1032, (2006).<\/li>\n<li>P.A.S. Jorge, M. Mayeh, R. Benrashid, P. Caldas, J.L. Santos,\u00a0<strong>F. Farahi,<\/strong>\u00a0\u201cApplications of quantum dots in optical fiber luminescent oxygen sensors\u201d J. Applied Optics, Vol. 45, p. 3760, (2006).<\/li>\n<li>P. A. S. Jorge, P. Caldas, J. C. G. Esteves da Silva, C. C. Rosa, A. G. Oliva, J. L. Santos,\u00a0<strong>F. Farahi,\u00a0\u00a0<\/strong>\u201cLuminescence-Based Optical Fiber Chemical Sensors\u201d\u00a0J. Fiber &amp; Integrated Optics, p. 201-225, Vol. 24 (2005).<\/li>\n<li>\u00a0<strong>F. Farahi<\/strong>, P. Jorge, M. Mayeh, R. Benrashid, P. Caldas, J. Santos, \u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/nanoparticles.pdf\" target=\"_blank\">Applications of nano-particles in optical chemical and biological sensors<\/a>\u00a0\u201d Invited Paper, OpticsEast, Philadelphia, SPIE Conference Proceeding Vol. 5590, p. 66 (2004).<\/li>\n<li>P. J. Moyer, A. Pridmore, and\u00a0<strong>F. Farahi,<\/strong>\u00a0\u201cMultimode Interference Switch Design with Loose Manufacturing Tolerance\u201d,\u00a0<em>Opt. Eng.\u00a0<strong>43<\/strong>, 165-169 (2004).<\/em><\/li>\n<li>P. A. S. Jorge, P. Caldas, L. A. Ferreira, A. B. Lobo Ribeiro, J. L. Santos,\u00a0<strong>F.\u00a0<\/strong><strong>Farahi,\u00a0<\/strong>\u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/Electrical%20current.pdf\" target=\"_blank\">Electrical current metering with a dual interferometric configuration and serrodyne signal processing<\/a>\u00a0\u201d Measurement Science and Technology\u00a0<strong>13<\/strong>, 533 (2002).<\/li>\n<li>F. M. Ara\u00fajo, L. A. Ferreira, J. L. Santos,<strong>\u00a0F. Farahi<\/strong>\u00a0\u201cTemperature and strain insensitive bend measurements with D-type fiber Bragg gratings\u201d Measurement Science and Technology (Special Issue: Optical Fiber Sensors)\u00a0<strong>12<\/strong>, 829 (2001).<\/li>\n<li>L.A. Ferreira, F.M. Araujo, J.L. Santos,<strong>\u00a0F. Farahi<\/strong>, &#8220;Simultaneous Measurement of Strain and Temperature using Interferometrically Interrogated Fiber Bragg Grating Sensors&#8221;, Optical Engineering Vol.39, p.2226 (2000).<\/li>\n<li>J. Angelichio, M. Nannini,\u00a0<strong>F. Farahi<\/strong>, \u201cAn Intelligent Fiber Sensor for Smart Structures\u201d Journal of Structural Control, Vol. 7, No.1, p. 7 (2000).<\/li>\n<li>L.A. Ferreira, E.V. Diatzikis, P.J. Moreira, J.L. Santos,<strong>\u00a0F. Farahi<\/strong>, &#8220;Application of multimode laser diodes in the interrogation of fiber Bragg grating sensors\u201d, Invited Paper, Optical Fiber Technology, vol. 6, p. 365 (2000).<\/li>\n<li><em>\u00a0<\/em>K.S. Kang, W.N. Sisk, M.Y.A. Raja,\u00a0<strong>F. Farahi,<\/strong>\u00a0\u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/FIELD_PM567.pdf\" target=\"_blank\">Field-enhanced photodegradation of pyrromethene dye films<\/a>\u00a0.\u201d J. Photochemistry and Photobiology A: Chemistry, 121, p. 133 (1999).<\/li>\n<li>P.J. Moreira, L.A. Ferreira, J.L. Santos,<strong>\u00a0F. Farahi<\/strong>, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/dynam_range.pdf\" target=\"_blank\">Dynamic Range\u00a0<\/a><a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/dynam_range.pdf\" target=\"_blank\">Enhancement in Fibre Bragg Grating Sensors Using a Multimode Laser Diode<\/a>\u00a0&#8221; IEEE Photonics Tech. Lett., Vol. 11, p. 703 (1999).<\/li>\n<li>L.A. Ferreira, E.V. Diatzikas, J.L. Santos,\u00a0<strong>F. Farahi<\/strong>, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/Demodulation.pdf\" target=\"_blank\">Demodulation of Fiber Bragg Grating Sensors Based on Dynamic Tuning of Multimode Laser Diode<\/a>\u00a0&#8220;, Applied Optics, vol. 38, p.4751 (1999).<\/li>\n<li>P.M. Cavaleiro, F.M. Araujo, L.A. Ferreira, J.L. Santos,\u00a0<strong>F. Farahi<\/strong>, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/simul_meas_boron-codop.pdf\" target=\"_blank\">Simultaneous Measurement of Strain and Temperature Using Bragg Gratings Written in Germanosilicate and Boron Codoped-Germanosilicate Fibers<\/a>\u00a0&#8221; IEEE Photonics Technology Letters, Vol. 11, p.1635 (1999).<\/li>\n<li>L.A. Ferreira, A.B. Lobo Ribeiro, J.L. Santos,\u00a0<strong>F. Farahi<\/strong>, \u201cSimultaneous displacement and temperature sensing using a white light interrogated low finesse cavity in line with a fiber Bragg grating\u201d J. Smart Materials and Structures, Vol. 7, p. 189 (1998).<\/li>\n<li>L.A. Ferreira, E.V. Diatzikis, J.L. Santos,\u00a0<strong>F. Farahi<\/strong>, \u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/freq_multi.pdf\" target=\"_blank\">Frequency Modulated Multimode Laser Diode for Fiber Bragg Sensors<\/a>&#8221; J. Lightwave Tech., Vol. 16, p. 1620 (1998).<\/li>\n<li>F.M. Araujo, L.A. Ferreira, J.L. Santos,<strong>\u00a0F. Farahi,<\/strong>\u00a0\u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/demod_scheme.pdf\" target=\"_blank\">Demodulation scheme for fiber Bragg grating sensors based on active control of WDM spectral response<\/a>\u201d Applied Optics, Vol. 37, p. 7940 (1998).<\/li>\n<li>L.A. Ferreira, J.L. Santos,\u00a0<strong>F. Farahi<\/strong>, \u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/pseudohet.pdf\" target=\"_blank\">Pseudo-heterodyne demodulation technique for fiber Bragg grating sensors using two matched gratings<\/a>\u00a0\u201d IEEE Photonics Tech. Lett, Vol.9, p. 487 (1997).<\/li>\n<li>W. Sisk, Dong Hee Kang, M.Y.A. Raja,\u00a0<strong>F. Farahi,\u00a0<\/strong>&#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/C60_Optlimx.pdf\" target=\"_blank\">Photocurrent and optical limiting studies of C-60 films and solutions<\/a>\u201d Int. J. Optoelectronics, p. 325-331, Vol. 11, p.325 (1997).<\/li>\n<li>L.A. Ferreira, A.B. Lobo Ribeiro, J.L. Santos,\u00a0<strong>F. Farahi,<\/strong>\u00a0\u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/simul_meas_displace.pdf\" target=\"_blank\">Simultaneous measurement of displacement and temperature using low finesse cavity and a fiber Bragg grating<\/a>\u00a0\u201d IEEE Photonics Tech. Lett, Vol. 8, p. 1519 (1996).<\/li>\n<li><strong>F. Farahi<\/strong>, J.D.C. Jones, D.A. Jackson, \u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/multi_fib_inter.pdf\" target=\"_blank\">Multiplexed fiber-optic interferometric sensing system: combined frequency and time division<\/a>,\u201d Selected Papers on Interference, Interferometry, and Interferometric Metrology, P. Hariharan, D. Malacara, Editors, SPIE\u00a0<strong>Milestone Series<\/strong>\u00a0110, p. 580 (1995).<\/li>\n<li>W. Sisk, K.S. Kang, M.Y.A. Raja,\u00a0<strong>F. Farahi<\/strong>, \u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/matrixPM567_95x.pdf\" target=\"_blank\">Matrix and donor\/acceptor dependence of polymer dispersed pyrromethene dye photoconductivity<\/a>\u201d Int. J. of Optoelectronics, Vol. 10, p. 95 (1995).<\/li>\n<li>S. Shukes,\u00a0<strong>F. Farahi<\/strong>, M.Y.A. Raja, R. Splinter, \u201cWhite light fiber-optic interferometry: A technique for monitoring tissue properties\u201d Proceedings Trends in Optical Fiber Metrology and Standards, Ed: O.D.D. Soares , p. 833 (1995).<\/li>\n<li>L.A. Ferreira, J.L. Santos,\u00a0<strong>F. Farahi,<\/strong>\u00a0\u201cPolarization insensitive fiber-optic white-light interferometry\u201d Optics Communications, Vol. 114, p. 386 (1995).<\/li>\n<li>L.A. Ferreira, J.L. Santos,\u00a0<strong>F. Farahi<\/strong>, \u201c<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/polar_induced.pdf\" target=\"_blank\">Polarization induced noise in a fiber-optic Michelson interferometer with Faraday rotator mirror elements<\/a>\u00a0\u201d Applied Optics, Vol. 34, p. 6399 (1995).<\/li>\n<li>R. R. Gauthier,\u00a0<strong>F. Farahi<\/strong>, N. Dahi , &#8220;Fiber-optic white-light interferometry: lead sensitivity considerations&#8221; Opt. Lett., Vol. 19, p.138 (1994).<\/li>\n<li><strong>F. Farahi<\/strong>, T.W. Mayes, &#8220;Demonstration of optical logic operations using fiber-optic interferometry&#8221; Am. J. Phys. Vol. 62, p. 467 (1994).\u00a0\u00a0\u00a0<strong>F. Farahi<\/strong>,\u00a0&#8220;Fiber-Optic Interferometric Point Thermometer&#8221; Fiber and Integrated Optics, Vol. 10, p. 205 (1992).<\/li>\n<li>J.L Santos,\u00a0<strong>F. Farahi<\/strong>, T.P. Newson, A.P. Leite, D.A. Jackson, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/freq_mult_lead_in.pdf\" target=\"_blank\">Frequency Multiplexing of Remote all Fiber Michelson Interferometers with Lead Insensitivity<\/a>\u00a0&#8221; Journal of Lightwave Technology, Vol. 10, No.3 (1992).<\/li>\n<li>P.St.J. Russell, D. Culverhouse,\u00a0<strong>F. Farahi<\/strong>,\u00a0&#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/forward_stim.pdf\" target=\"_blank\">Theory of Forward Stimulated Brillouin Scattering in Dual-Mode Single-Core Fibers<\/a>\u00a0&#8221; IEEE Journal of Quantum Electronics, Vol.27, No.3, p.836 (1991).<\/li>\n<li><strong>F. Farahi<\/strong>, J.D.C. Jones, D.A. Jackson, &#8220;High Speed Fiber Optic Temperature sensor&#8221; Optics Lett. Vol.16, No.22, p. 1800 (1991).<\/li>\n<li>S.C. Bartlett,\u00a0<strong>F. Farahi<\/strong>, D.A. Jackson, &#8220;A Dual Resolution Non Contact Vibration and Displacement Sensor Based Upon a Two Wavelength Source&#8221; Rev. Sci. Instrum., Vol.61, No.3, p.1014 (1990).<\/li>\n<li><strong>F. Farahi<\/strong>\u00a0, D.A. Jackson, &#8220;A Fiber Optic Interferometric System for Surface Profiling&#8221; Rev. Sci. Instrum., Vol.61, No.2, p.753 (1990).<\/li>\n<li><strong>F. Farahi<\/strong>, D.J. Webb, J.D.C. Jones, D.A. Jackson, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/simul_meas_temp.pdf\" target=\"_blank\">Simultaneous Measurement of Temperature and Strain: Cross-Sensitivity Considerations<\/a>\u00a0&#8221; Journal of Lightwave Technology, Vol. 8, No.2, p.138 (1990).<\/li>\n<li>S.C. Bartlett,\u00a0<strong>F. Farahi<\/strong>, D.A. Jackson, &#8220;Current sensing using Faraday rotation and a common path fiber Heterodyne interferometer&#8221; Rev. Sci. Instrum. Vol.61, p.2433 (1990).<\/li>\n<li>J.L. Santos,\u00a0<strong>F. Farahi<\/strong>, T.P. Newson, D.A. Jackson, &#8220;Time Division Multiplexing of Optical Fiber Sensors with Sampled Modulation of Laser Diode&#8221; Optics Communications, Vol.78, No.2, p.143 (1990).<\/li>\n<li>P.St.J. Russell, D. Culverhouse,\u00a0<strong>F. Farahi<\/strong>, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/exp_ob_brill_scat.pdf\" target=\"_blank\">Experimental Observation of Forward Stimulated Brillouin Scattering in Dual-Mode Single-Core Fiber<\/a>\u00a0&#8221; Electronics Letters, Vol.26, No.15, p.1195 (1990).<\/li>\n<li><strong>F. Farahi,<\/strong>\u00a0N. Takahashi, J.D.C. Jones, D.A. Jackson, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/Ring.pdf\" target=\"_blank\">Multiplexed Fiber Optic Sensors Using Ring Interferometers<\/a>\u00a0&#8221; Journal of Modern Optics, Vol.36, No.3, p.337 (1989).<\/li>\n<li>T.P. Newson,\u00a0<strong>F. Farahi<\/strong>, J.D.C. Jones, D.A. Jackson, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/reduc_semi_laser.pdf\" target=\"_blank\">Reduction of Semiconductor Laser Diode Phase and Amplitude Noise in Interferometric Fiber Optic Sensors<\/a>\u00a0&#8221; Applied Optics, Vol.28, p.4210 (1989).<\/li>\n<li>D. Culverhouse,\u00a0<strong>F. Farahi<\/strong>, C.N. Pannell, D.A. Jackson, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/pot_stim_brill.pdf\" target=\"_blank\">Potential of Stimulated Brillouin Scattering as Sensing Mechanism for Distributed Temperature Sensors<\/a>\u00a0&#8221; Electronics Letters, Vol.25, No.14, p.913 (1989).<\/li>\n<li>D. Culverhouse,\u00a0<strong>F. Farahi<\/strong>, C.N. Pannell, D.A. Jackson, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/stim_brill_scat.pdf\" target=\"_blank\">Stimulated Brillouin Scattering: a Means to Realize Tunable Microwave Generator or Distributed Temperature Sensor<\/a>\u00a0&#8221; Electronics Letters, Vol.25, NO.14, p.915 (1989).<\/li>\n<li>A.S. Gerges,\u00a0<strong>F. Farahi<\/strong>, T.P. Newson, J.D.C. Jones, D.A. Jackson, &#8220;A Fiber Interferometric Sensor Utilizing a Low Coherence Length Source: Resolution Enhancement&#8221; Electronics Letters, Vol.24, No.8, p.472 (1988).<\/li>\n<li><strong>F. Farahi,<\/strong>\u00a0T.P. Newson, P. Akhavan Leilabady, J.D.C. Jones, D.A. Jackson, &#8220;A Multiplexed Remote Fiber Optic Fabry-Perot Sensing System&#8221; Int. Journal of Opto-Electronics, Vol.3, No.1, p.79 (1988).<\/li>\n<li><strong>F. Farahi,<\/strong>\u00a0T.P. Newson, J.D.C. Jones, D.A. Jackson, &#8220;Coherence Multiplexing of Remote Fiber Optic Fabry-Perot Sensing System&#8221; Optics Communications, Vol.65, No.5, p.319 (1988).<\/li>\n<li><strong>F. Farahi<\/strong>, J.D.C. Jones, D.A. Jackson, &#8220;An Extended Range Temperature Sensor&#8221; Int. Journal of Opto-Electronics, Vol.3, No.3, p.237 (1988).<\/li>\n<li><strong>F. Farahi,<\/strong>\u00a0A.S. Gerges, J.D.C. Jones, D.A. Jackson, &#8220;<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/time_div_mult.pdf\" target=\"_blank\">Time-Division Multiplexing of Fiber Optic Interferometric Sensors Using a Frequency Modulated Laser Diode<\/a>\u00a0&#8221; Electronics Letters, Vol.24, No.1, p.54 (1988).<\/li>\n<li>A.S. Gerges,\u00a0<strong>F. Farahi<\/strong>, T.P. Newson, J.D.C. Jones, D.A. Jackson, &#8220;Fiber Optic Interferometric Sensors Using a Low Coherence Length Source: Dynamic Range Enhancement&#8221; Int. Journal of Opto-Electronics, Vol.3, No.4, p.311 (1988).<\/li>\n<li>T.P. Newson,\u00a0<strong>F. Farahi<\/strong>, J.D.C. Jones, D.A. Jackson, &#8220;Combined Interferometric and Polarimetric Fiber Optic Temperature Sensor With a Short Coherence Length Source&#8221; Optics Communications, Vol.68, No.3, p.161 (1988).<\/li>\n<li><strong>F. Farahi<\/strong>, J.D.C. Jones, D.A. Jackson,&#8221;\u00a0<a href=\"http:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-content\/uploads\/sites\/141\/2012\/11\/multi_fib_com_freq.pdf\" target=\"_blank\">A Multiplexed Fiber Optic Interferometric Sensing System: Combined Frequency and Time Division<\/a>\u00a0&#8221; Electronics Letters, Vol.24, No.7, p.409 (1988).<\/li>\n<li>A.S. Gerges, T.P. Newson,\u00a0<strong>F. Farahi<\/strong>, J.D.C. Jones, D.A. Jackson, &#8220;A Hemispherical Air Cavity Fiber Fabry-Perot Sensor&#8221; Optics Communications, Vol.68, NO.3, p.157 (1988).<\/li>\n<li><strong>F. Farahi<\/strong>, P. Akhavan Leilabady, J.D.C. Jones, D.A. Jackson, &#8220;Optical Fiber Flammable Gas Sensor&#8221; Journal of Physics E: Scientific Instruments, Vol.20, p.435 (1987).<\/li>\n<li><strong>F. Farahi<\/strong>, P. Akhavan Leilabady, J.D.C. Jones, D.A. Jackson, &#8220;Interferometric Fiber Optic Hydrogen Sensor&#8221; Journal of Physics E: Scientific Instruments, Vol.20, p.432 (1987).<\/li>\n<li>A.S. Gerges,\u00a0<strong>F. Farahi<\/strong>, T.P. Newson, J.D.C. Jones, D.A. Jackson, &#8220;An Interferometric Fiber Optic Sensor Using a Short Coherence Length Source&#8221; Electronics Letters, Vol.23, No.21, p.1110 (1987).<\/li>\n<\/ul>\n<\/div>\n","protected":false},"excerpt":{"rendered":"<p>More than 200 publications.\u00a0This is a partial list.\u00a0\u00a0 M. Abolbashari,\u00a0F. Magalh\u00e3es, F. M. Ara\u00fajo, M.V. Correia,\u00a0F. Farahi\u00a0&#8220;High dynamic range compressive imaging: a programmable imaging system&#8221; J. Optical Engineering, Opt. Eng. 51, 071407 (Jun 11, 2012) F. Magalh\u00e3es,\u00a0M. Abolbashari, F. M. Ara\u00fajo, M.V. Correia,\u00a0F. Farahi\u00a0&#8220;High resolution hyperspectral single-pixel imaging system based on compressive sensing&#8221; J. Optical [&hellip;]<\/p>\n","protected":false},"author":690,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"open","template":"","meta":{"jetpack_post_was_ever_published":false,"footnotes":""},"class_list":["post-21","page","type-page","status-publish","hentry"],"jetpack_shortlink":"https:\/\/wp.me\/P2RFfl-l","jetpack_sharing_enabled":true,"_links":{"self":[{"href":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-json\/wp\/v2\/pages\/21","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-json\/wp\/v2\/users\/690"}],"replies":[{"embeddable":true,"href":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-json\/wp\/v2\/comments?post=21"}],"version-history":[{"count":5,"href":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-json\/wp\/v2\/pages\/21\/revisions"}],"predecessor-version":[{"id":70,"href":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-json\/wp\/v2\/pages\/21\/revisions\/70"}],"wp:attachment":[{"href":"https:\/\/pages.charlotte.edu\/faramarz-farahi\/wp-json\/wp\/v2\/media?parent=21"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}