Electromagnetic waves and thermal radiation

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References
References
Bohren, C.F. and Huffman D.R., 1983, ''Absorption and Scattering of Light by Small Particles'', John Wiley & Sons, New York, NY.
Bohren, C.F. and Huffman D.R., 1983, ''Absorption and Scattering of Light by Small Particles'', John Wiley & Sons, New York, NY.
-
Chang, S.L. and Rhee, K.T., 1984, “Blackbody Radiation Functions,” ‘‘Int. Comm. Heat and Mass Transfer’‘, Vol. 11, pp. 451-455.
+
Chang, S.L. and Rhee, K.T., 1984, ‘’Blackbody Radiation Functions,” ''Int. Comm. Heat and Mass Transfer'', Vol. 11, pp. 451-455.
-
Catton, I., Ayyaswamy, P.S., and Clever, R.M., 1974, “Natural Convection Flow in a Finite, Rectangular Slot Arbitrarily Oriented with Restpect to the Gravity Vector,” ‘‘Int. J. Heat Mass Transfer’‘, Vol. 17, pp. 173-184.
+
Catton, I., Ayyaswamy, P.S., and Clever, R.M., 1974, ‘‘Natural Convection Flow in a Finite, Rectangular Slot Arbitrarily Oriented with Restpect to the Gravity Vector,” ''Int. J. Heat Mass Transfer'', Vol. 17, pp. 173-184.
-
Duffie, John A. and Beckman, William A., 2006, ‘‘Solar Engineering Of Thermal Processes’‘,  3<sup>rd</sup>  ed., John Wiley & Sons, Inc., New York, NY..
+
Duffie, John A. and Beckman, William A., 2006, ''Solar Engineering Of Thermal Processes'',  3<sup>rd</sup>  ed., John Wiley & Sons, Inc., New York, NY..
-
Frewin, M.R. and Scott, D.A., 1999, “Finite Element Model of Pulsed Laser Welding,” Welding Research Supplement 1999, 15s-22s.
+
Frewin, M.R. and Scott, D.A., 1999, ‘‘Finite Element Model of Pulsed Laser Welding,” Welding Research Supplement 1999, 15s-22s.
-
Greffet, J.J., Carminati, R., Joulain, K., Mulet, J. P., Mainguy, S. and Chen, Y., 2002, “Coherent Emission of Light by Thermal Sources, ‘‘Nature’‘ (London), Vol. 416, pp. 61-64.  
+
Greffet, J.J., Carminati, R., Joulain, K., Mulet, J. P., Mainguy, S. and Chen, Y., 2002, ‘‘Coherent Emission of Light by Thermal Sources, ''Nature'' (London), Vol. 416, pp. 61-64.  
-
Han, L., Liou, F.W., and Musti, S., 2005, “Thermal Behavior and Geometry Model of Melt Pool in Laser Material Process,” ‘‘J. Heat Transfer’‘, Vol. 127, pp. 1005-1014.
+
Han, L., Liou, F.W., and Musti, S., 2005, ‘‘Thermal Behavior and Geometry Model of Melt Pool in Laser Material Process,” ''J. Heat Transfer'', Vol. 127, pp. 1005-1014.
Harrison, W.N., Richmond, J.C., Plyler, E.K., Stair, R. and Skramstad, H.K., 1961, Standardization of Thermal Emittance Measurements, WADC-TR-59-510 (Pt.2), 21 pp.
Harrison, W.N., Richmond, J.C., Plyler, E.K., Stair, R. and Skramstad, H.K., 1961, Standardization of Thermal Emittance Measurements, WADC-TR-59-510 (Pt.2), 21 pp.
Harrison, W.N., Richmond, J.C., Shorten, F.J., and Joseph, H.M., 1963, Standardization Of Thermal Emittance Measurements, WADC-TR-59-510 (Pt.4), 90 pp.
Harrison, W.N., Richmond, J.C., Shorten, F.J., and Joseph, H.M., 1963, Standardization Of Thermal Emittance Measurements, WADC-TR-59-510 (Pt.4), 90 pp.
-
Heltzel, A.J., 2006, ‘‘Laser/Microstructure Interaction and Ultrafast Heat Transfer’‘, PhD Dissertation, Mechanical Engineering Department, The University of Texas at Austin, Austin, TX.
+
Heltzel, A.J., 2006, ''Laser/Microstructure Interaction and Ultrafast Heat Transfer'', PhD Dissertation, Mechanical Engineering Department, The University of Texas at Austin, Austin, TX.
-
Heltzel, A. Theppakuttai, S., Howell, J.R. and Chen, S., 2005, “Analytical and Experimental Investigation of Laser-Microsphere Interaction, for Nanoscale Surface Modification,”  ‘‘J. Heat Transfer’‘, vol. 127, pp. 1231-1235.
+
Heltzel, A. Theppakuttai, S., Howell, J.R. and Chen, S., 2005, ‘‘Analytical and Experimental Investigation of Laser-Microsphere Interaction, for Nanoscale Surface Modification,”  ''J. Heat Transfer'', vol. 127, pp. 1231-1235.
-
Hollands, K.G.T., Unny, S.E., Raithby, G.D., and Konicek, L., 1976, “Free Convection Heat Transfer. Across Inclined Air Layers,” ‘‘J. Heat Transfer’‘, Vol. 98, 189-193.
+
Hollands, K.G.T., Unny, S.E., Raithby, G.D., and Konicek, L., 1976, ‘‘Free Convection Heat Transfer. Across Inclined Air Layers,” ''J. Heat Transfer'', Vol. 98, 189-193.
-
Lide, D.R. (ed.), ‘‘Handbook of Chemistry and Physics’‘, 89<sup>th</sup> ed., CRC Press, Boca Raton, 2008.
+
Lide, D.R. (ed.), ''Handbook of Chemistry and Physics'', 89<sup>th</sup> ed., CRC Press, Boca Raton, 2008.
-
Mie, G., 1908, “Beiträge zur Optik trüber Medien speziell kolloidaller Metallösungen,” ‘‘Ann. Phys’‘., Vol. 25, pp. 377-445.
+
Mie, G., 1908, ‘‘Beiträge zur Optik trüber Medien speziell kolloidaller Metallösungen,” ''Ann. Phys''., Vol. 25, pp. 377-445.
Modest, M.F., 2003, Radiative Heat Transfer, 2<sup>nd</sup> ed., Academic Press, Sand Diego, CA.  
Modest, M.F., 2003, Radiative Heat Transfer, 2<sup>nd</sup> ed., Academic Press, Sand Diego, CA.  
-
Qu, Y., Puttitwong, E., Howell, J. R. and Ezekoye, O. A., 2007a, “Errors Associated with Light-pipe Radiation Thermometer Temperature Measurements,” ‘‘IEEE Trans. Semiconductor Manufacturing’‘, Vol. 20, pp. 26-38.   
+
Qu, Y., Puttitwong, E., Howell, J. R. and Ezekoye, O. A., 2007a, ‘‘Errors Associated with Light-pipe Radiation Thermometer Temperature Measurements,” ''IEEE Trans. Semiconductor Manufacturing'', Vol. 20, pp. 26-38.   
-
Qu, Y., Howell, J. R. and Ezekoye, O. A., 2007b, “Monte Carlo Modeling of a Light-pipe Radiation Thermometer,” ‘‘IEEE Trans. Semiconductor Manufacturing’‘, Vol. 20, pp. 39-50.   
+
Qu, Y., Howell, J. R. and Ezekoye, O. A., 2007b, ‘‘Monte Carlo Modeling of a Light-pipe Radiation Thermometer,” ''IEEE Trans. Semiconductor Manufacturing'', Vol. 20, pp. 39-50.   
-
Randall, K. R., Mitchell, J. W., and El-Wakil,  M. M., 1979, “Natural Convection Heat Transfer Characteristics of Flat Plate Enclosures,” ‘‘J. Heat Transfer’‘, Vol. 101, pp. 120-125.
+
Randall, K. R., Mitchell, J. W., and El-Wakil,  M. M., 1979, ‘‘Natural Convection Heat Transfer Characteristics of Flat Plate Enclosures,” ''J. Heat Transfer'', Vol. 101, pp. 120-125.
-
Rohsenow, W.M., Hartnett, J.P., and Cho, Y.I., 1998, ‘‘Handbook of Heat Transfer’‘, 3<sup>rd</sup> ed., Chap. 18, Heat Transfer in Materials Processing, McGraw-Hill, New York, NY.  
+
Rohsenow, W.M., Hartnett, J.P., and Cho, Y.I., 1998, ''Handbook of Heat Transfer'', 3<sup>rd</sup> ed., Chap. 18, Heat Transfer in Materials Processing, McGraw-Hill, New York, NY.  
-
Rosenthal, D., 1946, “The Theory of Moving Sources of Heat and its Application to Metal Treatments,” Trans. ASME, Vol. 43, pp. 849–866.
+
Rosenthal, D., 1946, ‘‘The Theory of Moving Sources of Heat and its Application to Metal Treatments,” Trans. ASME, Vol. 43, pp. 849–866.
Schmidt, E. and Eckert, E.R.G., 1935, Über die Richtungsverteilung der Wärmestrahlung von Oberflächen, Forschung Geb. D. Ingenieurwes., Vol. 6, pp.175-183.
Schmidt, E. and Eckert, E.R.G., 1935, Über die Richtungsverteilung der Wärmestrahlung von Oberflächen, Forschung Geb. D. Ingenieurwes., Vol. 6, pp.175-183.
-
Siegel, R. and Howell, J.R., 2002, ‘‘Thermal Radiation Heat Transfer’‘, 4<sup>th</sup> ed., Taylor and Francis, New York, NY.
+
Siegel, R. and Howell, J.R., 2002, ''Thermal Radiation Heat Transfer'', 4<sup>th</sup> ed., Taylor and Francis, New York, NY.
-
Theppakuttai, S., 2006, ‘‘Laser Micro/Nano Scale Processing of Glass and Silicon’‘, PhD Dissertation, Mechanical Engineering Department, The University of Texas at Austin, Austin, TX.
+
Theppakuttai, S., 2006, ''Laser Micro/Nano Scale Processing of Glass and Silicon'', PhD Dissertation, Mechanical Engineering Department, The University of Texas at Austin, Austin, TX.
-
Torrance, K.E. and Catton, I., 1980, “Natural Convection in Enclosures,” ‘‘Proc Nineteenth National Heat Transfer Conf’‘., HTD-Vol. 8, Orlando, FL, July 27-30, 1980
+
Torrance, K.E. and Catton, I., 1980, ‘‘Natural Convection in Enclosures,” ''Proc Nineteenth National Heat Transfer Conf''., HTD-Vol. 8, Orlando, FL, July 27-30, 1980
-
Touloukian, Y.S. and DeWitt, D.P., (eds.), ‘‘Thermophysical Properties of Matter’‘, vol. 7, Thermal radiative properties: metallic elements and alloys, and v. 8. Thermal radiative properties: non-metallic solids, IFI/Plenum, New York, 1970-[79].
+
Touloukian, Y.S. and DeWitt, D.P., (eds.), ''Thermophysical Properties of Matter'', vol. 7, Thermal radiative properties: metallic elements and alloys, and v. 8. Thermal radiative properties: non-metallic solids, IFI/Plenum, New York, 1970-[79].
-
Zaworski, J., Welty, J.R., and Drost, M.K., 1996, “Measurement and Use of Bidirectional  Reflectance,” ‘‘Int. J. Heat Mass Transfer’‘, Vol. 39, pp. 1149-1156.
+
Zaworski, J., Welty, J.R., and Drost, M.K., 1996, ‘‘Measurement and Use of Bidirectional  Reflectance,” ''Int. J. Heat Mass Transfer'', Vol. 39, pp. 1149-1156.

Revision as of 01:08, 18 December 2009

References Bohren, C.F. and Huffman D.R., 1983, Absorption and Scattering of Light by Small Particles, John Wiley & Sons, New York, NY. Chang, S.L. and Rhee, K.T., 1984, ‘’Blackbody Radiation Functions,” Int. Comm. Heat and Mass Transfer, Vol. 11, pp. 451-455. Catton, I., Ayyaswamy, P.S., and Clever, R.M., 1974, ‘‘Natural Convection Flow in a Finite, Rectangular Slot Arbitrarily Oriented with Restpect to the Gravity Vector,” Int. J. Heat Mass Transfer, Vol. 17, pp. 173-184. Duffie, John A. and Beckman, William A., 2006, Solar Engineering Of Thermal Processes, 3rd ed., John Wiley & Sons, Inc., New York, NY.. Frewin, M.R. and Scott, D.A., 1999, ‘‘Finite Element Model of Pulsed Laser Welding,” Welding Research Supplement 1999, 15s-22s. Greffet, J.J., Carminati, R., Joulain, K., Mulet, J. P., Mainguy, S. and Chen, Y., 2002, ‘‘Coherent Emission of Light by Thermal Sources, Nature (London), Vol. 416, pp. 61-64. Han, L., Liou, F.W., and Musti, S., 2005, ‘‘Thermal Behavior and Geometry Model of Melt Pool in Laser Material Process,” J. Heat Transfer, Vol. 127, pp. 1005-1014. Harrison, W.N., Richmond, J.C., Plyler, E.K., Stair, R. and Skramstad, H.K., 1961, Standardization of Thermal Emittance Measurements, WADC-TR-59-510 (Pt.2), 21 pp. Harrison, W.N., Richmond, J.C., Shorten, F.J., and Joseph, H.M., 1963, Standardization Of Thermal Emittance Measurements, WADC-TR-59-510 (Pt.4), 90 pp. Heltzel, A.J., 2006, Laser/Microstructure Interaction and Ultrafast Heat Transfer, PhD Dissertation, Mechanical Engineering Department, The University of Texas at Austin, Austin, TX. Heltzel, A. Theppakuttai, S., Howell, J.R. and Chen, S., 2005, ‘‘Analytical and Experimental Investigation of Laser-Microsphere Interaction, for Nanoscale Surface Modification,” J. Heat Transfer, vol. 127, pp. 1231-1235. Hollands, K.G.T., Unny, S.E., Raithby, G.D., and Konicek, L., 1976, ‘‘Free Convection Heat Transfer. Across Inclined Air Layers,” J. Heat Transfer, Vol. 98, 189-193. Lide, D.R. (ed.), Handbook of Chemistry and Physics, 89th ed., CRC Press, Boca Raton, 2008. Mie, G., 1908, ‘‘Beiträge zur Optik trüber Medien speziell kolloidaller Metallösungen,” Ann. Phys., Vol. 25, pp. 377-445. Modest, M.F., 2003, Radiative Heat Transfer, 2nd ed., Academic Press, Sand Diego, CA. Qu, Y., Puttitwong, E., Howell, J. R. and Ezekoye, O. A., 2007a, ‘‘Errors Associated with Light-pipe Radiation Thermometer Temperature Measurements,” IEEE Trans. Semiconductor Manufacturing, Vol. 20, pp. 26-38. Qu, Y., Howell, J. R. and Ezekoye, O. A., 2007b, ‘‘Monte Carlo Modeling of a Light-pipe Radiation Thermometer,” IEEE Trans. Semiconductor Manufacturing, Vol. 20, pp. 39-50. Randall, K. R., Mitchell, J. W., and El-Wakil, M. M., 1979, ‘‘Natural Convection Heat Transfer Characteristics of Flat Plate Enclosures,” J. Heat Transfer, Vol. 101, pp. 120-125. Rohsenow, W.M., Hartnett, J.P., and Cho, Y.I., 1998, Handbook of Heat Transfer, 3rd ed., Chap. 18, Heat Transfer in Materials Processing, McGraw-Hill, New York, NY. Rosenthal, D., 1946, ‘‘The Theory of Moving Sources of Heat and its Application to Metal Treatments,” Trans. ASME, Vol. 43, pp. 849–866. Schmidt, E. and Eckert, E.R.G., 1935, Über die Richtungsverteilung der Wärmestrahlung von Oberflächen, Forschung Geb. D. Ingenieurwes., Vol. 6, pp.175-183. Siegel, R. and Howell, J.R., 2002, Thermal Radiation Heat Transfer, 4th ed., Taylor and Francis, New York, NY. Theppakuttai, S., 2006, Laser Micro/Nano Scale Processing of Glass and Silicon, PhD Dissertation, Mechanical Engineering Department, The University of Texas at Austin, Austin, TX. Torrance, K.E. and Catton, I., 1980, ‘‘Natural Convection in Enclosures,” Proc Nineteenth National Heat Transfer Conf., HTD-Vol. 8, Orlando, FL, July 27-30, 1980 Touloukian, Y.S. and DeWitt, D.P., (eds.), Thermophysical Properties of Matter, vol. 7, Thermal radiative properties: metallic elements and alloys, and v. 8. Thermal radiative properties: non-metallic solids, IFI/Plenum, New York, 1970-[79]. Zaworski, J., Welty, J.R., and Drost, M.K., 1996, ‘‘Measurement and Use of Bidirectional Reflectance,” Int. J. Heat Mass Transfer, Vol. 39, pp. 1149-1156.