Journal Publications – Nanoscale Thermal Radiation Laboratory

2024

233. Yang, C., Wang, X., Jacob, Z., Cai, W., and Zhang, Z.M., 2024, “Determination of Mid-Infrared Optical Properties of Complex Media Using Partial Mueller Matrix Ellipsometry,” submitted to Review of Scientific Instrument.

232. Zhang, Z.M., Bohm, P., Menon, A.K., 2024, “Entropic Analysis of the Maximum Output Power of Thermoradiative Cells,” accepted for publication in ASME Journal of Heat and Mass Transfer.

231. Jeong, S.Y., Ranjan, D., Zhang, Z.M., and Loutzenhiser, P.G., 2024, “Exploring Irradiated Granular Flows with Rapid Radiant Heating for Concentrated Solar Thermal Energy Collection and Storage,” revision submitted to iScience (Cell Press).

230. Yang, C., Cai, W., and Zhang, Z.M., 2024, “Mueller Matrix Symmetry for Both Reciprocal and Nonreciprocal Metamaterials,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 329, p. 109190

229. Jeong, S.Y., Bagepalli, M.V., Brooks, J.D., Ranjan, D., Zhang, Z.M. and Loutzenhiser, P.G., 2024, “Modeling heat and mass transfer in granular flows between vertical parallel plates,” Applied Thermal Engineering, p.123460.

228. Centini, M., Yang, C., Larciprete, M. C., Antezza, M., and Zhang, Z. M., 2024, “Optimization of highly circularly polarized thermal radiation in α-MoO3 β-Ga2O3 twisted layers,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol 323, p. 109051.

227. Larciprete, M.C., Ceneda, D., Yang, C., Dereshgi, S.A., Lupo, F.V., Casaletto, M.P., Macaluso, R., Antezza, M., Zhang, Z.M., Centini, M. and Aydin, K., 2024, “Large-area polycrystalline α-MoO3 thin films for IR photonics,” Journal of Physics D: Applied Physics, Vol 57, p. 135107.

226. Bohm, P., Yang, C., Menon, A.K. and Zhang, Z.M., 2024, “Thermophotovoltaic emitter design with a hyper-heuristic custom optimizer enabled by deep learning surrogates,” Energy, Vol 291, p. 130424.

225. Yang, C., Cai, W., and Zhang, Z.M., 2024, “Tailoring Full-Stokes Thermal Emission from Twisted-gratings Structures,” Nanophotonics, Vol 13, pp. 803–811

2023

224. Jeong, S.Y, Bagepalli, M.V., Brooks, J.D., Ranjan, D., Zhang, Z.M., and Loutzenhiser, P.G., 2023, “Experimental and Numerical Analyses of Gravity-Driven Granular Flows between Vertical Parallel Plates for Solar Thermal Energy Storage and Transport, International Journal of Heat and Mass Transfer,” Vol. 126, p. 124571.

223. Chen, C.Y., Ranjan, D., Loutzenhiser, P.G., and Zhang, Z.M., 2023, “A Numerical Study of the Spectral Radiative Properties of Packed Bed with Mixed Bauxite and Silica Spheres,” International Journal of Heat and Mass Transfer, Vol. 207, p. 124025.

222. Chen, C.Y., Yang, C., Pan, K., Ranjan, D., Loutzenhiser, P.G., and Zhang, Z.M., 2023, “Temperature-Dependent Spectral Emittance of Bauxite and Silica Particle Beds,” Experimental Heat Transfer, Vol. 36, pp. 826-844.

2022

221. Yang, C., Cai, W., and Zhang, Z.M., 2022, “Polarimetric analysis of thermal emission from both reciprocal and nonreciprocal materials using fluctuation electrodynamics,” Physical Review B, Vol. 106, p. 245407.

220. Bagepalli, M.V., Jeong, S.Y., Brooks, J.D., Zhang, Z.M., Ranjan, D., and Loutzenhiser, P.G., 2022, “Experimental Characterization of Extreme Temperature Granular Flows for Solar Thermal Energy Transport and Storage,” Solar Energy Materials and Solar Cells, Vol. 248, pp. 112020.

219. Feng, D., Ruan, X., Yee, S.K., and Zhang, Z.M., 2022, “Thermoradiative Devices Enabled by Hyperbolic Phonon Polaritons at Nanoscales,” Nano Energy, Vol. 103, pp. 107831.

218. Chen, C.Y., Yang, C., Ranjan, D., Loutzenhiser, P.G., and Zhang, Z.M., 2022, “Spectral Radiative Properties of Polydispersed SiO2 Particle Beds,” Journal of Thermophysics and Heat Transfer, Published Online: 4 Apr 2022 https://doi.org/10.2514/1.T6524.

217. Feng, D., Yee, S.K., and Zhang, Z.M., 2022, “Geometric and Doping Effects on Radiative Recombination in Thin-Film Near-Field Energy Converters,” AIP Advances, Vol. 12, p. 095006.

216. Feng, D., Yee, S.K., and Zhang, Z.M., 2022, “Improved Performance of a Near-Field Thermophotovoltaic System by a Back Gapped Reflector,” Solar Energy Materials and Solar Cells, Vol. 237, p. 111562.

215. Yang, C., Zhao, B., Cai, W., and Zhang, Z.M., 2022, “Mid-infrared broadband circular polarizer based on Weyl semimetals,” Optics Express, Vol. 30, pp. 3035-3046.

2021

214. Feng, D., Yee, S.K., and Zhang, Z.M., 2021, “Near-Field Photonic Thermal Diode Based on hBN and InSb Films,” Applied Physics Letters, Vol. 119, p. 181111.

213. Jeong, S.Y., Chen, C.Y., Ranjan, D., Loutzenhiser, P.G., and Zhang, Z.M., 2021, “Measurements of Scattering and Absorption Properties of Submillimeter Bauxite and silica Particles,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 276, p. 107923.

212. Feng, D., Tervo, E.J., Vasileska, D., Yee, S.K., Rohatgi, A., and Zhang, Z. M., 2021, “Spatial Profiles of Photon Chemical Potential in Near-field Thermophotovoltaic Cells,” Journal of Applied Physics, Vol. 129, p. 213101.

211. Callahan, W.A., Feng, D., Zhang, Z.M., Toberer, E.S., Ferguson, A.J., and Tervo, E J., 2021, “Coupled Charge and Radiation Transport Processes in Thermophotovoltaic and Thermoradiative Cells,” Physical Review Applied, Vol. 15, p. 054035.

210. Yarrington, J.D., Bagepalli, M.V., Pathikonda, G., Schrader, A.J., Zhang, Z.M., Ranjan, D., and Loutzenhiser, P.G., 2021, “Numerical Analyses of High Temperature Dense, Granular Flows Coupled to High Temperature Flow Property Measurements for Solar Thermal Energy Storage,” Solar Energy, Vol. 213, pp. 350-360.

2015 - 2020

209. Chen, C.Y., Yang, C.Y., Ranjan, D., Loutzenhiser, P.G., and Zhang, Z.M., 2020, “Spectral Radiative Properties of Ceramic Particles for Concentrated Solar Thermal Energy Storage Applications,” International Journal of Thermophysics, Vol. 41, p. 000152.

208. Shan, S.Q., Chen, C.Y., Loutzenhiser, P.G., Ranjan, D., Zhou, Z.J., and Zhang, Z.M., 2020, “Spectral Emittance Measurements of Micro/Nanostructures in Energy Conversion: A Review,” Frontiers in Energy, Vol. 14, pp. 482-509.

207. Kim, J., Brown, J.M., Joshi, Y., O’Connor, K, Diaz, M, Zhang, Z.M., and Yang, P., 2020, “Vandal Glass Heat Distribution and the Effect of Glass Gap Adjustments in Outdoor Digital Display Components,” Journal of Electronic Packaging, Vol. 142, p. 031001.

206. Bagepalli, M.V., Yarrington, J.D., Schrader, A. J., Zhang, Z.M., Ranjan, D., and Loutzenhiser, P.G., 2020, “Measurement of Flow Properties Coupled to Experimental and Numerical Analyses of Dense, Granular Flows for Solar Thermal Energy Storage,” Solar Energy, Vol. 207, pp. 77-90.

205. Wang, Z.L., Yang, P., Qi., G.G., Zhang, Z.M., and Cheng, P., 2020, “An Experimental Study of a Nearly Perfect Absorber Made from a Natural Hyperbolic Material for Harvesting Solar Energy,” Journal of Applied Physics, Vol. 127, p. 233102.

204. Wu, X.H., Su, C.S., Fu, C.J., and Zhang, Z.M., 2020, “Chiral response triggered by anisotropy under conical incidence,” ES Energy & Environment, Vol. 8, pp. 5-14. [Cover image]

203. Wu, X.H., Fu, C.J., and Zhang, Z.M., 2020, “Near-field Radiative Heat Transfer between Two α-MoO3 Biaxial Crystals,” Journal of Heat Transfer, Vol. 142, p. 072802.

202. Tervo, E.J., Cola, B.A., and Zhang, Z.M., 2020, “Comparison of Kinetic Theory and Fluctuational Electrodynamics for Radiative Heat Transfer in Nanoparticle Chains,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 246, p. 106947.

201. Zhang, Z.M., Wu, X.H., and Fu, C.J., 2020, “Validity of Kirchhoff’s Law for Semitransparent Films Made of Anisotropic Materials,” submitted to Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 245, p. 106904.

200. Kan, Y.H., Zhao, C.Y., and Zhang, Z.M., 2020, “Enhancement and Manipulation of Near-Field Radiative Heat Transfer Using an Intermediate Modulator,” Physical Review Applied, Vol. 13, p. 014069.

199. Feng, D., Tervo, E.J., Yee, S.K., and Zhang, Z.M., 2020, “Effect of Evanescent Waves on the Dark Current of Thermophotovoltaic Cells,” Nanoscale and Microscale Thermophysical Engineering, Vol. 24, pp. 1-19.

198. Yang, P.Y. and Zhang, Z.M., 2020, “Bidirectional Reflection of Semitransparent Polytetrafluoroethylene (PTFE) Sheets on a Silver Film,” International Journal of Heat and Mass Transfer, Vol. 148, p. 118992.

197. Tervo,* E.J., Francoeur, M., Cola, B.A., and Zhang,* Z.M., 2019, “Thermal Radiation in Systems of Many Dipoles,” Physical Review B, Vol. 100, p. 205422. (* corresponding authors)

196. Xu, D.Y., Bilal, A., Zhao,* J.M., Liu, L.H., and Zhang, Z.M., 2019, “Near-Field Radiative Heat Transfer between Rough Surfaces Modeled Using Effective Media with Gradient Distribution of Dielectric Function,” International Journal of Heat and Mass Transfer, Vol. 142, p. 118432. (* corresponding author)

195. Wu, X.H., Fu,* C.J., and Zhang,* Z.M., 2019, “Chiral Response of a Twisted Bilayer of Hexagonal Boron Nitride,” Optics Communications, Vol. 452, pp. 124-129. (* corresponding authors)

194. Song, J.L., Cheng,* Q., Luo Z.X., Zhou X.P., and Zhang, Z.M., 2019, “Modulation and Splitting of Three-Body Radiative Heat Flux via Graphene/SiC Core-Shell Nanoparticles,” International Journal of Heat and Mass Transfer, Vol. 140, pp. 80-87. (* corresponding author)

193. Tervo,* E.J., Gustafson, M.E., Zhang, Z.M., Cola, B.A., Filler,* M.A., 2019, “Photonic Thermal Conduction by Infrared Plasmonic Resonators in Semiconductor Nanowires,” Applied Physics Letters, Vol. 114, p. 163104. (* corresponding authors)

192. Kan, Y.H., Zhao,* C.Y., and Zhang, Z.M., 2019, “Near-field Radiative Heat Transfer in Three-body Systems with Periodic Structures,” Physical Review B, Vol. 99, p. 035433. (* corresponding author)

191. Yang, P., Ye, H., and Zhang, Z.M., 2019, “Experimental Demonstration of the Effect of Magnetic Polaritons on the Radiative Properties of Deep Aluminum Gratings,” Journal of Heat Transfer, Vol. 141, p. 052702.

190. Wu, X.H., Fu,* C.J., and Zhang,* Z.M., 2019, “Effect of Orientation on the Directional and Hemispherical Emissivity of Hyperbolic Metamaterials,” International Journal of Heat and Mass Transfer, Vol. 135, pp. 1207-1217. (* corresponding authors)

189. Wu, X.H., Fu,* C.J., and Zhang,* Z.M., 2018, “Influence of hBN Orientation on the Near-Field Radiative Heat Transfer between Graphene/hBN Heterostructures,” Journal of Photonics for Energy, Vol. 9, 032702. (* corresponding authors)

188. Wang, Z.L., Zhang,* Z.M., and Cheng,* P., 2018, “Natural Anisotropic Nanoparticles with a Broad Absorption Spectrum for Solar Energy Harvesting,” International Communications in Heat and Mass Transfer, Vol. 96, pp. 109-113. (* corresponding authors)

187. Kan, Y.H., Zhao,* C.Y., and Zhang,* Z.M., 2018, “Compact Mid-infrared Broadband Absorber Based on hBN/metal Metasurface,” International Journal of Thermal Sciences, Vol. 130, pp. 192-199. (* corresponding authors)
186. Yang, P., Chen, C.Y., and Zhang, Z.M., 2018, “A Dual-layer Structure with Record-high Solar Reflectance for Daytime Radiative Cooling,” Solar Energy, Vol. 169, pp. 316-324.

185. Tervo, E.J. , Boyuk, D.S., Cola, B.A., Zhang,* Z.M., and Filler,* M.A., 2018, “Sub-diffractional Waveguiding by Mid-infrared Plasmonic Resonators in Semiconductor Nanowires,” Nanoscale, Vol. 10, paper # 5708. (* corresponding authors)

184. Tervo, E.J., Bagherisereshki, E., and Zhang, Z.M., 2018, “Near-Field Radiative Thermoelectric Energy Converters: A Review,” Frontiers in Energy, Vol. 12, pp. 5-21.

183. Wang, Z.L., Zhang,* Z.M., Quan, X.J., and Cheng,* P., 2018, “A Perfect Absorber Design Using a Natural Hyperbolic Material for Harvesting Solar Energy,” Solar Energy, Vol. 159, pp. 329-336. (* corresponding authors)

182. Wang, Z.L., Quan, X.J., Zhang,* Z.M., and Cheng,* P., 2018, “Optical Absorption of Carbon-Gold Core-Shell Nanoparticles,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 205, pp. 291-298. (* corresponding authors)

181. Wang, Z.L., Zhang, Z.M., Quan, X.J., and Cheng,* P., 2018, “A Numerical Study on Effects of Surrounding Medium, Materials, and Geometry of Nanoparticles on Solar Absorption Efficiencies,” International Journal of Heat and Mass Transfer, Vol. 116, pp. 825-832. (* corresponding author)

180. Lin,* C., Wang, B., Teo, K.H., and Zhang, Z.M., 2018, “A Coherent Description of Thermal Radiative Devices and Its Application on the Near-Field Negative Electroluminescent Cooling,” Energy, Vol. 147, pp. 177-186. (* corresponding author)

179. Lin,* C., Wang, B., Teo, K.H., and Zhang, Z.M., 2017, “Performance Comparison between Photovoltaic and Thermoradiative Devices,” Journal of Applied Physics, Vol. 122, p. 243103. (* corresponding author)

178. Lin,* C., Wang, B., Teo, K.H., and Zhang, Z.M., 2017, “Near-Field Enhancement of Thermoradiative Devices,” Journal of Applied Physics, Vol. 122, p. 143102. (* corresponding author)

177. Tervo, E., Zhang, Z.M., and Cola,* B, 2017, “Collective Near-Field Thermal Emission from Polaritonic Nanoparticle Arrays,” Physical Review Materials, Vol. 1(1), p. 015201. (Available online: https://doi.org/10.1103/PhysRevMaterials.1.015201)

176. Zhao,* B., Guizal, B., Zhang, Z.M., Fan, S., and Antezza,* M., 2017, “Near-Field Heat Transfer Between Graphene/hBN Multilayers,” Physical Review B, Vol. 95, p. 245437. (* corresponding authors)

175. Yang, P.Y., Cheng, Q., and Zhang, Z.M., 2017, “Radiative Properties of Ceramic Al2O3, AlN, and Si3N4 – II: Modeling,” International Journal of Thermophysics, Vol. 38, paper #124 (18 pages). https://doi.org/10.1007/s10765-017-2259-x

174. Zhang, R.Z., and Zhang, Z.M., 2017, “Validity of Effective Medium Theory in Multilayered Hyperbolic Materials,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 197, pp. 132-140.

173. Wang,* B., Lin, C., Teo, K.H., and Zhang, Z.M., 2017, “Thermoradiative Device Enhanced by Near-Field Coupled Structures,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 196, pp. 10-16. (* corresponding author)

172. Zhao, B., and Zhang, Z.M., 2017, “Resonance Perfect Absorption by Exciting Hyperbolic Phonon Polaritons in 1D hBN Gratings,” Optics Express, Vol. 25(7), pp. 7791-7796.

171. Zhao, B., and Zhang, Z.M., 2017, “Perfect Absorption with Trapezoidal Gratings Made of Natural Hyperbolic Materials,” Nanoscale and Microscale Thermophysical Engineering, Vol. 21(3), pp. 123-133. (Issue cover image).

170. Watjen, J.I., Liu, X.L., Zhao, B., and Zhang, Z.M., 2017, “A Computational Simulation of Using Tungsten Gratings in Near-Field Thermophotovoltaic Devices,” Journal of Heat Transfer, Vol. 139(5), p. 052704 (8 pages).

169. Zhao, B., and Zhang, Z.M., 2017, “Perfect Mid-Infrared Absorption by Hybrid Phonon-Plasmon Polaritons in hBN/Metal-Grating Anisotropic Structures,” International Journal of Heat and Mass Transfer, Vol. 106, pp. 1025-1034.

168. Zhao, B., and Zhang, Z.M., 2017, “Enhanced Photon Tunneling by Surface Plasmon-Phonon Polaritons in Graphene/hBN Heterostructures,” Journal of Heat Transfer, Vol. 139(2), p. 022701 (8 pages).

167. Torabi,* M., Zhang, Z.M., and Peterson, G.P., 2017, “Interface Entropy Generation in Micro Porous Channels with Velocity Slip and Temperature Jump,” Applied Thermal Engineering, Vol. 111, pp. 684-693. (* corresponding author)

166. Watjen,# J.I., Zhao,# B., and Zhang, Z.M., 2016, “Near-Field Radiative Heat Transfer Between Doped-Si Parallel Plates Separated by a Spacing down to 200 nm,” Applied Physics Letters, Vol. 109, p. 203112 (# authors who contributed equally). http://dx.doi.org/10.1063/1.4967384

165. Liu, X.L., and Zhang, Z.M., 2016, “High-Performance Electroluminescent Refrigeration Enabled by Photon Tunneling,” Nano Energy, Vol. 26, pp. 353-359.

164. Cheng, Q., Yang, P.Y., and Zhang, Z.M., 2016, “Radiative Properties of Ceramic Al2O3, AlN, and Si3N4: I. Experiments,” International Journal of Thermophysics, Vol. 37, paper #62 (16 pages). doi:10.1007/s10765-016-2067-8.

163. Cheng,* Q., Chai, J.L., Zhang, Z.M., 2016, “Investigation of Double-Layer Coating Pigmented with CuO Particles of Different Concentrations on the Aesthetic and Thermal Aspects,” International Journal of Thermal Sciences, Vol. 105, pp. 36-44. (* corresponding author)

162. Liu, X.L., and Zhang, Z.M., 2016, “Tunable Stable Levitation Based on Casimir Interaction between Nanostructures,” Physical Review Applied, Vol. 5, p. 034004.

161. Zhao, B., Sakurai, A., and Zhang, Z.M., 2016, “Polarization Dependence of the Reflectance and Transmittance of Anisotropic Metamaterials,” Journal of Thermophysics and Heat Transfer, Vol. 30, pp. 240-246.

160. Wang, Z.L., Quan, X.J., Zhang, Z.M., and Cheng,* P., 2015, “Numerical Studies on Absorption Characteristics of Plasmonic Metamaterials with an Array of Nanoshells,” International Communications in Heat and Mass Transfer, Vol. 68, pp. 172-177 (* corresponding author).

159. Liu, X.L., and Zhang, Z.M., 2015, “Giant Enhancement of Nanoscale Thermal Radiation Based on Hyperbolic Graphene Plasmons,” Applied Physics Letters, Vol. 107, p. 143114.

158. Zhang, R.Z., and Zhang, Z.M., 2015, “Tunable Positive and Negative Refraction of Infrared Radiation in Graphene-Dielectric Multilayers,” Applied Physics Letters, Vol. 107, p. 191112.

157. Zhao, B., and Zhang, Z.M., 2015, “Strong Plasmonic Coupling Between Graphene Ribbon Array and Metal Gratings,” ACS Photonics, Vol. 2, pp 1611-1618.

156. Liu, X.L., and Zhang. Z.M., 2015, “Near-Field Thermal Radiation Between Metasurfaces,” ACS Photonics, Vol. 2, pp. 1320-1326.

155. Liu, X.L., Zhao, B., and Zhang, Z.M., 2015, “Enhanced Near-Field Thermal Radiation and Reduced Casimir Stiction Between Doped-Si Gratings,” Physical Review A, Vol. 91, p. 062510.

154. Zhao, B., Zhao, J.M., and Zhang, Z.M., 2015, “Resonance Enhanced Absorption in a Graphene Monolayer by Using Deep Metal Gratings,” Journal of the Optical Society of America B, Vol. 32, pp. 1176-1185.

153. McNamara, A.J., Joshi,* Y., Zhang, Z.M., Moon, K.-S., Lin, Z.Y., Yao, Y.G., Wong, C.-P., and Lin, W., 2015, “Double-Sided Transferred Carbon Nanotube Arrays for Improved Thermal Interface Materials,” Journal of Electronic Packaging, Vol. 137, p. 031014 (* corresponding author).

152. McNamara, A.J., Joshi,* Y., and Zhang,* Z.M., 2015, “Thermal Resistance of Thermal Conductive Adhesive Anchored Carbon Nanotubes Interface Material,” International Journal of Thermal Sciences, Vol. 96, pp. 221-226 (* corresponding author).

151. Liu, X.L., Wang, L.P., and Zhang, Z.M., 2015, “Near-Field Thermal Radiation: Recent Progress and Outlook,” Nanoscale and Microscale Thermophysical Engineering, Vol. 19, pp. 98-126.

150. Zhang, R.Z., Liu, X.L., and Zhang, Z.M., 2015, “Modeling the Optical and Radiative Properties of Vertically Aligned Carbon Nanotubes in the Infrared Region,” Journal of Heat Transfer, Vol. 137, p. 091009.

149. Zhang, R.Z., Liu, X.L., and Zhang, Z.M., 2015, “Near-Field Radiation Between Graphene-Covered Carbon Nanotube Arrays,” AIP Advances, Vol. 5, p. 053501.

148. Zhang, R.Z., and Zhang, Z.M., 2015, “Negative Refraction and Self-Collimation in the Far Infrared with Aligned Carbon Nanotube Films,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 158, pp. 91-100.

147. Sakurai, A., Zhao, B., and Zhang, Z.M., 2015, “Effect of Polarization on Dual-Band Infrared Metamaterial Emitters or Absorbers,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol.158, pp. 111-118.

146. Liu, X.L., Zhao, B., and Zhang, Z.M., 2015, “Blocking-Assisted Infrared Transmission of Subwavelength Metallic Gratings by Graphene,” Journal of Optics, Vol. 17, p. 035004.

145. Zhao, J.M., and Zhang, Z.M., 2015, “Electromagnetic Energy Storage and Power Dissipation in Nanostructures,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 151, pp. 49-57.

Before 2015

144. Sakurai, A., Zhao, B., and Zhang, Z.M., 2014, “Resonant Frequency and Bandwidth of Metamaterial Emitters and Absorbers Predicted by an RLC Circuit Model,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 149, pp. 33-40.

143. Liu, X.L., Bright, T.J., and Zhang, Z.M., 2014, “Application Conditions of Effective Medium Theory in Near-Field Radiative Heat Transfer Between Multilayered Metamaterials,” Journal of Heat Transfer, Vol. 136, p. 092703-1/8.

142. Liu, X.L., Zhang, R.Z., and Zhang, Z.M., 2014, “Near-Perfect Photon Tunneling by Hybridizing Graphene Plasmons and Hyperbolic Modes,” ACS Photonics, Vol. 1, pp. 785-789.

141. Zhao, B., Zhao, J.M., and Zhang, Z.M., 2014, “Enhancement of Near-Infrared Absorption in Graphene with Metal Gratings,” Applied Physics Letters, Vol. 105, p. 031905-1/4.

140. Liu, X.L., and Zhang, Z.M., 2014, “Graphene-Assisted Near-Field Radiative Heat Transfer Between Corrugated Polar Materials,” Applied Physics Letters, Vol.104, p. 251911-1/5.

139. Bright, T.J., Liu, X.L., and Zhang, Z.M., 2014, “Energy Streamlines in Near-Field Radiative Heat Transfer Between Hyperbolic Metamaterials,” Optics Express, Vol. 22(S4), pp. A1112-A1127. http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-104-A1112

138. Liu, X.L., Zhang, R.Z., and Zhang, Z.M., 2014, “Near-Field Radiative Heat Transfer with Doped-Silicon Nanostructured Metamaterials,” International Journal of Heat and Mass Transfer, Vol. 73, pp. 389-398.

137. Bright, T.J., Wang, L.P., and Zhang, Z.M., 2014, “Performance of Near-Field Thermophotovoltaic Cells Enhanced with a Backside Reflector,” Journal of Heat Transfer, Vol. 136, p. 062701-1/9.

136. Zhao, B., and Zhang, Z.M., 2014, “Study of Magnetic Polaritons in Deep Gratings for Thermal Emission Control,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 135, pp. 81-89.

135. Wang, L.P., Haider, A.M., and Zhang, Z.M., 2014, “Effect of Magnetic Polaritons on the Radiative Properties of Inclined Plate Arrays,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 132, pp. 52-60.

134. Zhang, Z.M., and Wang, L.P., 2013, “Measurements and Modeling of the Spectral and Directional Radiative Properties of Micro/Nanostructured Materials,” International Journal of Thermophysics, Vol. 34, pp. 2209-2242.

133. Liu, X.L., Zhang, R.Z., and Zhang, Z.M., 2013, “Near-field thermal radiation between hyperbolic metamaterials: Graphite and carbon nanotubes,” Applied Physics Letters, Vol. 103, p. 213102-1/4.

132. Liu, X.L., and Zhang, Z.M., 2013, “Metal-Free Low-Loss Negative Refraction in the Mid-Infrared Region,” Applied Physics Letters, Vol. 103, p. 103101-1/5.

131. Zhao, B., Wang, L.P., Shuai, Y., and Zhang, Z.M., 2013, “Thermophotovoltaic Emitters Based on a Two-Dimensional Grating/Thin-Film Nanostructure,” International Journal of Heat and Mass Transfer, Vol. 67, pp. 637-645.

130. Bright, T.J., Watjen, J.I., Zhang, Z.M., Muratore, C., Voevodin, A.A., Koukis, D.I., Tanner, D.B., and Arenas, D.J., 2013, “Infrared Optical Properties of Amorphous and Nanocrystalline Ta2O5 Thin Films,” Journal of Applied Physics, Vol. 114, p. 083515-1/10.

129. Wang, L.P., and Zhang, Z.M., 2013, “Measurement of Coherent Thermal Emission due to Magnetic Polaritons in Subwavelength Microstructures,” Journal of Heat Transfer, Vol. 135, p. 091014-1/9.

128. Wang,* L.P., and Zhang, Z.M., 2013, “Thermal Rectification Enabled by Near-field Radiative Heat Transfer Between Intrinsic Silicon and Other Materials,” Nanoscale and Microscale Thermophysical Engineering, Vol. 17, pp. 337-348. (* corresponding author)

127. Liu, X.L., Wang, L.P., and Zhang, Z.M., 2013, “Wideband Tunable Omnidirectional Infrared Absorbers Based on Doped-Silicon Nanowire Arrays,” Journal of Heat Transfer, Vol. 135, p. 061602-1/8.

126. Liu, X.L., Zhao, B., and Zhang, Z.M., 2013, “Wide-Angle Near Infrared Polarizer with Extremely High Extinction Ratio,” Optics Express, Vol. 21, pp. 10502–10510. http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-21-9-10502

125. Park,* K., and Zhang, Z.M., 2013, “Fundamentals and Applications of Near-Field Radiative Energy Transfer,” Frontier in Heat and Mass Transfer, Vol. 4, p. 013001-1/26. (* corresponding author)

124. Watjen, J.I., Bright, T.J., Zhang, Z.M., Muratore, C., and Voevodin, A.A., 2013, “Spectral Radiative Properties of Tungsten Thin Films,” International Journal of Heat and Mass Transfer, Vol. 61, pp. 106-113.

123. Wang, H., Liu, X.L., and Zhang, Z.M., 2013, “Absorption Coefficient of Crystalline Silicon at Wavelengths from 500 nm to 1000 nm,” International Journal of Thermophysics, Vol. 34, pp. 213-225.

122. Wang, H., Liu, X.L., Wang,* L.P., and Zhang, Z.M., 2013, “Anisotropic Optical Properties of Silicon Nanowire Arrays Based on Effective Medium Calculation,” International Journal of Thermal Sciences, Vol. 65, pp. 62-69. (* corresponding author)

121. Ye, H., Wang, X.J., Lin, W., Wong, C.P., and Zhang, Z.M., 2012, “Infrared Absorption Coefficients of Vertically-Aligned Carbon Nanotube Films,” Applied Physics Letters, Vol. 101, p. 141909-1/4.

120. Bright, T.J., Watjen, J., Zhang, Z.M., Muratore, C., and Voevodin, A.A., 2012, “Optical Properties of HfO2 Thin Films Deposited by Magnetron Sputtering: From the Visible to the Far-Infrared,” Thin Solid Films, Vol. 520, pp. 6793-6802.

119. McNamara, A.J., Joshi,* Y., and Zhang, Z.M., 2012, “Characterization of Nanostructured Thermal Interface Materials – A Review,” International Journal of Thermal Sciences, Vol. 62, pp. 2-11. (* corresponding author)

118. Zhang, Z.M., Enikov, E.T., and Makansi, T., 2012, “Near-Field Radiative Transfer between Heavily Doped SiGe at Elevated Temperatures,” Journal of Heat Transfer, Vol. 134, p. 092702-1/7.

117. Wang, L.P., Basu, S., and Zhang, Z.M., 2012, “Direct Measurement of Thermal Emission from a Fabry-Perot Cavity Resonator,” Journal of Heat Transfer, Vol. 134, p. 072701-1/9.

116. Wang, X.J., Haider, A.M., Abell, J.L., Zhao, Y.-P., and Zhang, Z.M., 2012, “Anisotropic Diffraction from Inclined Silver Nanorod Arrays on Grating Templates,” Nanoscale and Microscale Thermophysical Engineering, Vol. 16, pp. 18-36 (featured on the issue’s cover).

115. Wang, X.J., Abell, J.L., Zhao, Y.-P., and Zhang, Z.M., 2012, “Angle-Resolved Reflectance of Obliquely Aligned Silver Nanorods,” Applied Optics, Vol. 51, 1521-1531.

114. Wang, L.P., and Zhang, Z.M., 2012, “Wavelength-Selective and Diffuse Emitter Enhanced by Magnetic Polaritons for Thermophotovoltaics,” Applied Physics Letters, Vol. 100, 063902-1/3 [selected for the February 20, 2012 issue of Virtual Journal of Nanoscale Science & Technology]

113. Zhang, Z.M., 2012, “Clarification of the Relation between Drift Velocity and Relaxation Time,” Journal of Thermophysics and Heat Transfer, Vol. 26, pp. 189-191.

112. Zhang, Z.M., Bright, T.J., and Peterson, G.P., 2011, “Reexamination of the Statistical Derivations of Fourier’s Law and Cattaneo’s Equation,” Nanoscale and Microscale Thermophysical Engineering, Vol. 15, pp. 220-228.

111. Chen, J.X., Wang,* P., Zhang, Z.M., Lu, Y.H., and Ming, H., 2011, “The Coupling between Gap Plasmon Polariton and Magnetic Polariton in a Metallic-Dielectric Multilayer Structure,” Physical Review E, Vol. 84, 026603-1/9. (* corresponding author)

110. Wang, L.P., and Zhang, Z.M., 2011, “Phonon-Mediated Magnetic Polaritons in the Infrared Region,” Optics Express, Vol. 19, pp. A126–A135.
http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-19-102-A126

109. Wang, L.P., Basu, S., and Zhang, Z.M., 2011, “Direct and Indirect Methods for Calculating Thermal Emission from Layered Structures with Nonuniform Temperatures,” Journal of Heat Transfer, Vol. 133, 072701-1/7.

108. Basu, S., Wang, L.P., and Zhang, Z.M., 2011, “Direct Calculation of Energy Streamlines in Near-Field Thermal Radiation,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 112, pp. 1149-1155.

107. Wang, L.P., and Zhang, Z.M., 2010, “Effect of Magnetic Polaritons on the Radiative Properties of Double-Layer Nanoslit Arrays,” Journal of the Optical Society of America B, Vol. 27, pp. 2595-2604.

106. Wang, X.J., Wang, L.P., Adewuyi, O.S., Cola, B.A., and Zhang, Z.M., 2010, “Highly Specular Carbon Nanotube Absorbers,” Applied Physics Letters, Vol. 97, 163116-1/3.

105. Bright, T.J., and Zhang, Z.M., 2010, “Entropy Generation in Thin Films Evaluated from Phonon Radiative Transport,” Journal of Heat Transfer, Vol. 132, 101301-1/9.

104. Zhang, Z.M., and Wang, X.J., 2010, “Unified Wien’s Displacement Law in Terms of the Logarithmic Frequency or Wavelength Scale,” Journal of Thermophysics and Heat Transfer, Vol. 24, pp. 222-224.

103. Basu, S., Lee, B.J., and Zhang, Z.M., 2010, “Near-Field Radiation Calculated with an Improved Dielectric Function Model for Doped Silicon,” Journal of Heat Transfer, Vol. 132, 023302-1/7.

102. Basu, S., Lee, B.J., and Zhang, Z.M., 2010, “Infrared Radiative Properties of Heavily Doped Silicon at Room Temperature,” Journal of Heat Transfer, Vol. 132, 023301-1/8.

101. McNamara, A.J., Lee, B.J., and Zhang, Z.M., 2010, “Quantum Size Effect on the Lattice Specific Heat of Nanostructures,” Nanoscale and Microscale Thermophysical Engineering, Vol. 14, pp. 1-20.

100. Wang, X.J., Basu, S., and Zhang, Z.M., 2009, “Parametric Optimization of Dielectric Functions for Maximizing Nanoscale Radiative Transfer,” Journal of Physics D: Applied Physics, Vol. 42, 245403-1/8.

99. Basu, S., and Zhang, Z.M., 2009, “Ultrasmall Penetration Depth in Nanoscale Thermal Radiation,” Applied Physics Letters, Vol. 95, 133104-1/3. [selected for the October 12, 2009 issue of Virtual Journal of Nanoscale Science & Technology]

98. Wang, L.P., and Zhang, Z.M., 2009, “Resonance Transmission or Absorption in Deep Gratings Explained by Magnetic Polaritons,” Applied Physics Letters, Vol. 95, 111904-1/3.

97. Basu, S., Zhang, Z.M., and Fu, C.J., 2009, “Review of Near-Field Thermal Radiation and Its Application to Energy Conversion,” International Journal of Energy Research, Vol. 33, pp. 1203-1232. (Invited)

96. Bright, T.J., and Zhang, Z.M., 2009, “Common Misperceptions of the Hyperbolic Heat Equation,” Journal of Thermophysics and Heat Transfer, Vol. 23, pp. 601-607.

95. Basu, S., and Zhang, Z.M., 2009, “Maximum Energy Transfer in Near-Field Thermal Radiation at Nanometer Distances,” Journal of Applied Physics, Vol. 105, 093535-1/6. [selected for the May 25, 2009 issue of Virtual Journal of Nanoscale Science & Technology]

94. Wang, X.J., Flicker, J.D., Lee, B.J., Ready, W.J., and Zhang, Z.M., 2009, “Visible and Near-Infrared Radiative Properties of Vertically Aligned Multi-Walled Carbon Nanotubes,” Nanotechnology, Vol. 20, 215704-1/9.

93. Wang, L.P., Lee, B.J., Wang, X.J., and Zhang, Z.M., 2009, “Spatial and Temporal Coherence of Thermal Radiation in Asymmetric Fabry-Perot Resonance Cavities,” International Journal of Heat and Mass Transfer, Vol. 52, pp. 3024-3031.

92. Fu,* C.J., and Zhang, Z.M., 2009, “Thermal Radiative Properties of Metamaterials and Other Nanostructured Materials: A Review,” Frontiers of Energy and Power Engineering in China, Vol. 3, pp. 11-26. (* corresponding author)

91. Zhu,* Q.Z., Lee, H.J., and Zhang, Z.M., 2009, “Radiative Properties of Materials with Surface Scattering or Volume Scattering: A Review,” Frontiers of Energy and Power Engineering in China, Vol. 3, pp. 60-79. (* corresponding author)

90. Lee, B.J., and Zhang, Z.M., 2009, “Indirect Measurements of Coherent Thermal Emission from a Truncated Photonic Crystal Structure,” Journal of Thermophysics and Heat Transfer, Vol. 23, pp. 9-17.

89. Li, Q., Lee., B.J., Zhang, Z.M., and Allen, D.W., 2008, “Light Scattering of Semitransparent Sintered Polytetrafluoroethylene Films,” Journal of Biomedical Optics, Vol. 13, 054064-1/12.

88. Lee, B.J., and Zhang, Z.M., 2008, “Lateral Shift in Near-Field Thermal Radiation with Surface Phonon Polaritons,” Nanoscale and Microscale Thermophysical Engineering, Vol. 12, pp. 238-250.

87. Fu, K., Chen, Y.-B., Hsu,* P.-f., Zhang, Z.M., and Timans, P. J., 2008, “Device Scaling Effect on the Spectral-Directional Absorptance of Wafer’s Front Side,” International Journal of Heat and Mass Transfer, Vol. 51, pp. 4911-4925. (* corresponding author)

86. Lee, B.J., Wang, L.P., and Zhang, Z.M., 2008, “Coherent Thermal Emission by Excitation of Magnetic Polaritons between Periodic Strips and a Metallic Film,” Optics Express, Vol. 16, pp. 11328-11336. Free online at http://www.opticsexpress.org/abstract.cfm?uri=oe-16-15-11328.

85. Park, K., Cross, G.L.W., Zhang,* Z.M., and King,* W.P., 2008, “Experimental Investigation on the Heat Transfer between a Heated Microcantilever and a Substrate,” Journal of Heat Transfer, Vol. 130, 102401-1/9. (* corresponding authors)

84. Chen, Y.-B., Lee, B.J., and Zhang, Z.M., 2008, “Infrared Radiative Properties of Submicron Metallic Slit Arrays,” Journal of Heat Transfer, Vol. 130, 082404-1/8.

83. Chen,* Y.-B., and Zhang, Z.M., 2008, “Heavily Doped Silicon Complex Gratings as Wavelength-Selective Absorbing Surfaces,” Journal of Physics D: Applied Physics, Vol. 41, 095406-1/8. (* corresponding author)

82. Lee, B.J., Chen, Y.-B., and Zhang, Z.M., 2008, “Confinement of Infrared Radiation to Nanometer Scales through Metallic Slit Arrays,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 109, pp. 608-619.

81. Lee, B.J., Chen, Y.-B., and Zhang, Z.M., 2008, “Transmission Enhancement through Nanoscale Metallic Slit Arrays from the Visible to Mid-Infrared,” Journal of Computational and Theoretical Nanoscience, Vol. 5, pp. 201-213. (Invited)

80. Park, K., Basu, S., King, W.P., and Zhang, Z.M., 2008, “Performance Analysis of Near-Field Thermophotovoltaic Devices Considering Absorption Distribution,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 109, pp. 305-316.

79. Lee, B.J., Chen, Y.-B., and Zhang, Z.M., 2008, “Surface Waves Between Metallic Films and Truncated Photonic Crystals Observed with Reflectance Spectroscopy,” Optics Letters, Vol. 33, pp. 204-206.

78. Fu, C.J., and Zhang, Z.M., 2008, “Further Investigation of Coherent Thermal Emission from Single Negative Materials,” Nanoscale and Microscale Thermophysical Engineering, Vol. 12, pp. 83-97.

77. Lee, B.J., Park, K., and Zhang, Z.M., 2007, “Energy Pathways in Nanoscale Thermal Radiation,” Applied Physics Letters, Vol. 91, 153101-1/3. [http://scitation.aip.org/dbt/dbt.jsp?KEY=APPLAB&Volume=91&Issue=15]

76. Lee, H.J., Bryson, A.C., and Zhang, Z.M., 2007, “Measurement and Modeling of the Emittance of Silicon Wafers with Anisotropic Roughness,” International Journal of Thermophysics, Vol. 28, pp. 918-932.

75. Park, K., Marchenkov, A., Zhang, Z.M., and King,* W.P., 2007, “Low Temperature Characterization of Heated Microcantilevers,” Journal of Applied Physics, Vol. 101, 094504-1/9.(* corresponding author) [selected for the May 21, 2007 issue of Virtual Journal of Nanoscale Science & Technology]

74. Park, K., Lee, J., Zhang, Z.M., and King,* W.P., 2007, “Topography Imaging with a Heated Atomic Force Microscope Cantilever in Tapping Mode,” Review of Scientific Instruments, Vol. 78, 043709-1/7.(* corresponding author) [selected for the May 14, 2007 issue of Virtual Journal of Nanoscale Science & Technology]

73. Kim, K.J., Park, K., Lee, J., Zhang, Z.M., and King,* W.P., 2007, “Nanotopographical Imaging Using a Heated Atomic Force Microscope Cantilever Probe,” Sensors and Actuators A, Vol. 136, pp. 95-103. (* corresponding author)

72. Park, K., Lee, J., Zhang, Z.M., and King,* W.P., 2007, “Frequency-Dependent Electrical and Thermal Response of Heated Atomic Force Microscope Cantilevers,” Journal of Microelectromechanical Systems, Vol. 16, pp. 213-222. (* corresponding author)

71. Basu, S., Chen, Y.-B., and Zhang, Z.M., 2007, “Microscale Radiation in Thermophotovoltaic Devices – A Review,” International Journal of Energy Research, Vol. 31, pp. 689-716. (Invited)

70. Lee, H.J., and Zhang, Z.M., 2007, “Applicability of Phase Ray-Tracing Method for Light Scattering from Rough Surfaces,” Journal of Thermophysics and Heat Transfer, Vol. 21, pp. 330-336.

69. Zhang, Z.M., and Basu, S., 2007, “Entropy Flow and Generation in Radiative Transfer Between Surfaces,” International Journal of Heat and Mass Transfer, Vol. 50, pp. 702-712.

68. Chen, Y.-B., Zhang, Z.M., and Timans, P.J., 2007, “Radiative Properties of Pattered Wafers with Nanoscale Linewidth,” Journal of Heat Transfer,Vol. 129, pp. 79-90.

67. Lee, B.J., and Zhang, Z.M., 2007, “Coherent Thermal Emission from Modified Periodic Multilayer Structures,” Journal of Heat Transfer, Vol. 129, pp. 17-26.

66. Chen, Y.-B., and Zhang, Z.M., 2007, “Design of Tungsten Complex Gratings for Thermophotovoltaic Radiators,” Optics Communications, Vol. 269, pp. 411-417.

65. Zhang, Z.M., and Lee, B.J., 2006, “Lateral Shift in Photon Tunneling Studied by the Energy Streamline Method,” Optics Express, Vol. 14, pp. 9963-9970. Free online at http://www.opticsinfobase.org/abstract.cfm?URI=oe-14-21-9963.

64. Lee, B.J., and Zhang, Z.M., 2006, “Design and Fabrication of Planar Multilayer Structures with Coherent Thermal Emission Characteristics,” Journal of Applied Physics, Vol. 100, 063529-1/10.

63. Lee, H.J., Chen, Y.-B., and Zhang, Z.M., 2006, “Directional Radiative Properties of Anisotropic Rough Silicon and Gold Surfaces,” International Journal of Heat and Mass Transfer, Vol. 49, pp. 4482-4495.

62. Lee, H.J., and Zhang, Z.M., 2006, “Measurement and Modeling of the Bidirectional Reflectance of SiO2 Coated Si Surfaces,” International Journal of Thermophysics, Vol. 27, pp. 820-839.

61. Fu, C.J., and Zhang, Z.M., 2006, “Nanoscale Radiation Heat Transfer for Silicon at Different Doping Levels,” International Journal of Heat and Mass Transfer, Vol. 49, pp. 1703-1718.

60. Fu, K., Hsu,* P.-f., and Zhang, Z.M., 2006, “Unified Analytical Formulation of Thin-Film Radiative Properties Including Partial Coherence,” Applied Optics, Vol. 45, pp. 653-661. (* corresponding author)

59. Lee, B.J., Fu, C.J., and Zhang, Z.M., 2005, “Coherent Thermal Emission from One-dimensional Photonic Crystals,” Applied Physics Letters, Vol. 87, 071904-1/3. [selected for the August 22, 2005 issue of Virtual Journal of Nanoscale Science & Technology]

58. Fu, C.J., Zhang, Z.M., and Tanner, D.B., 2005, “Planar Heterogeneous Structures for Coherent Emission of Radiation,” Optics Letters, Vol. 30, pp. 1873-1875.

57. Fu, C.J., Zhang, Z.M., and Tanner, D.B., 2005, “Energy Transmission by Photon Tunneling in Multilayer Structures Including Negative Index Materials,” Journal of Heat Transfer, Vol. 127, pp. 1046-1052.

56. Fu, C.J., First, P.N., and Zhang, Z.M., 2005, “The Brewster Angle with a Negative Index Material,” Applied Optics, Vol. 44, pp. 3716-3724.

55. Lee, B.J., Zhang, Z.M., Early, E.A., DeWitt, D.P., and Tsai, B.K., 2005, “Modeling Radiative Properties of Silicon with Coatings and Comparison with Reflectance Measurements,” Journal of Thermophysics and Heat Transfer, Vol. 19, pp. 558-569.

54. Zhu, Q.Z., and Zhang, Z.M., 2005, “Correlation of Angle-Resolved Light Scattering with the Microfacet Orientation of Rough Silicon Surfaces,” Optical Engineering, Vol. 44, 073601-1/12.

53. Zhu, Q.Z., Lee, H.J., and Zhang, Z.M., 2005, “Validity of Hybrid Models for the Bidirectional Reflectance of Coated Rough Surfaces,” Journal of Thermophysics and Heat Transfer, Vol. 19, pp. 548-557.

52. Lee, B.J., Khuu, V.P., and Zhang, Z.M., 2005, “Partially Coherent Spectral Radiative Properties of Dielectric Thin Films with Rough Surfaces,” Journal of Thermophysics and Heat Transfer, Vol. 19, pp. 360-366.

51. Park, K., Lee, B.J., Fu, C.J., and Zhang, Z.M., 2005, “Study of the Surface and Bulk Polaritons with a Negative Index Metamaterial,” Journal of the Optical Society of America B, Vol. 22, pp. 1016-1023.

50. Lee, H.J., Lee, B.J., and Zhang, Z.M., 2005, “Modeling the Radiative Properties of Semitransparent Wafers with Rough Surfaces and Thin-Film Coatings,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 93, pp. 185-194.

49. Zhu, Q.Z., and Zhang, Z.M., 2004, “Anisotropic Slope Distribution and Bidirectional Reflectance of a Rough Silicon Surface,” Journal of Heat Transfer, Vol. 126, pp. 985-993.

48. Chen, Y.B., Zhu, Q.Z., Wright, T.L., King, W.P., and Zhang, Z.M., 2004, “Bidirectional Reflection Measurements of Periodically Microstructured Silicon Surfaces,” International Journal of Thermophysics, Vol. 25, pp. 1235-1252.

47. Zhang, Z.M., and Park, K., 2004, “Group Front and Group Velocity in a Dispersive Medium upon Refraction from a Nondispersive Medium,” Journal of Heat Transfer, Vol. 126, pp. 244-249.

46. Shen, Y.J., Zhu, Q.Z., and Zhang, Z.M., 2003, “A Scatterometer for Measuring the Bidirectional Reflectance and Transmittance of Semiconductor Wafers with Rough Surfaces,” Review of Scientific Instruments, Vol. 74, pp. 4885-4892.

45. Fu, C.J., and Zhang, Z.M., 2003, “Transmission Enhancement Using a Negative-Refraction Layer,” Microscale Thermophysical Engineering, Vol. 7, pp. 221-234.

44. Zhou, Y.H., and Zhang, Z.M., 2003, “Radiative Properties of Semitransparent Silicon Wafers with Rough Surfaces,” Journal of Heat Transfer, Vol. 125, pp. 462-470.

43. Zhang, Z.M., and Chen, D.H., 2002, “Thermal Analysis of Multiphoton Absorption at 193 nm in Volume-Absorbing Glass,” Journal of Heat Transfer, Vol. 124, pp. 391-394.

42. Chen, D.H., Dowell, M.L., Cromer, C.L., and Zhang, Z.M., 2002, “Thermal Response and Inequivalence of Pulsed Ultraviolet-Laser Calorimeters,” Journal of Thermophysics and Heat Transfer, Vol. 16, pp. 36-42.

41. Zhang, Z.M., and Fu, C.J., 2002, “Unusual Photon Tunneling in the Presence of a Layer with a Negative Refractive Index,” Applied Physics Letters, Vol. 80, pp. 1097-1099.

40. Zhou, Y.H., Shen, Y.J., Zhang, Z.M., Tsai, B.K., and DeWitt, D.P., 2002, “A Monte Carlo Model for Predicting the Effective Emissivity of the Silicon Wafer in Rapid Thermal Processing Furnaces,” International Journal of Heat and Mass Transfer, Vol. 45, pp. 1945-1949.

39. Zhang, Z.M., and Zhou, Y.H., 2001, “An Effective Emissivity Model for Rapid Thermal Processing Using the Net-Radiation Method,” International Journal of Thermophysics, Vol. 22, pp. 1563-1575.

38. Shen, Y.J., Zhang, Z.M., Tsai, B.K., and DeWitt, D.P., 2001, “Bidirectional Reflectance Distribution Function of Rough Silicon Wafers,” International Journal of Thermophysics, Vol. 22, pp. 1311-1326.

37. Shen,Y.J., Chen, D.H., and Zhang, Z.M., 2001, “Thermal Model of an Absolute Solar Radiometer Designed for the Future Satellite Missions,” Journal of Solar Energy Engineering, Vol. 123, pp. 50-52.

36. Kumar, A.R., Boychev, V.A., Zhang, Z.M., and Tanner, D.B., 2000, “Fabry-Perot Resonators Built with YBa2Cu3O7-d Films on Si Substrates,” Journal of Heat Transfer, Vol. 122, pp. 785-791.

35. Chen, D.H., and Zhang, Z.M., 2000, “Thermal Analysis of the Volume Absorber in Pulsed Excimer Laser Calorimeters,” International Journal of Heat and Mass Transfer, Vol. 43, pp. 3061-3072.

34. Kumar, A.R., Zhang, Z.M., Boychev, V.A., Tanner, D.B., Vale, L.R., and Rudman, D.A., 1999, “Far-Infrared Transmittance and Reflectance of YBa2Cu3O7- Films on Si Substrates,” Journal of Heat Transfer, Vol. 121, pp. 844-851. [2000 ASME Heat Transfer Division Best Paper Award.]

33. Pearson, D.A., and Zhang, Z.M., 1999, “Thermal-Electrical Modeling of Absolute Cryogenic Radiometers,” Cryogenics, Vol. 39, pp. 299-309.

32. Kumar, A.R., Zhang, Z.M., Boychev, V.A., and Tanner, D.B., 1999, “Temperature Dependent Far-Infrared Absorptance of Thin YBa2Cu3O7- Films in the Normal State,” Microscale Thermophysical Engineering, Vol. 3, pp. 5-15.

31. Zhang, Z.M., 1999, “Optical Properties of a Slightly Absorbing Film for Oblique Incidence,” Applied Optics, Vol. 38, pp. 205-207.

30. Livigni, D.J., Cromer, C.L., Scott, T.R., Johnson, B.C., and Zhang, Z.M., 1998, “Thermal Characterization of a Cryogenic Radiometer and Comparison with a Laser Calorimeter,” Metrologia, Vol. 35, pp. 819-827.

29. Zhang, Z.M., Lorentz, S.R., Rice, J.P., and Datla, R.U., 1998, “Measurement of Thermophysical Properties of Polyimide and a Black Paint for the Development of Cryogenic Radiometers,” Metrologia, Vol. 35, pp. 511-515.

28. Zhang, Z.M., Kumar, A.R., Boychev, V.A., Tanner, D.B., Vale, L.R., and Rudman, D.A., 1998, “Back-side Reflectance of High-Tc Superconducting Thin Films in the Far Infrared,” Applied Physics Letter, Vol. 73, pp. 1907-1909.

27. Johnson, B.C., Kumar, A.R., Zhang, Z.M., Livigni, D.J., Cromer, C.L., and Scott, T.R., 1998, “Heat Transfer Analysis and Modeling of a Cryogenic Laser Radiometer,” Journal of Thermophysics and Heat Transfer, Vol. 12, pp. 575-581.

26. Zhang, Z.M., Lefever-Button, G., and Powell, F.R., 1998, “Infrared Refractive Index and Extinction Coefficient of Polyimide Films,” International Journal of Thermophysics, Vol. 19, pp. 905-916.

25. Zhang, Z.M., 1998, “Far-Infrared Radiation Modulators Using High-Tc Superconductors,” Journal of Heat Transfer, Vol. 120, pp. 24-29.

24. Zhang, Z.M., Rice, J.P., and Datla, R.U., 1998, “Thermal Design of High-Tc Superconductor Radiometers,” Journal of Thermophysics and Heat Transfer, Vol. 12, pp. 23-29.

23. Zhang, Z.M., Gentile, T.R., Migdall, A.L., and Datla, R.U., 1997, “Transmittance Measurements for Filters of Optical Density from One to Ten,” Applied Optics, Vol. 36, pp. 8889-8895.

22. Zhang, Z.M., 1997, “Reexamination of the Transmittance Formulae of a Lamina,” Journal of Heat Transfer, Vol. 119, pp. 645-647.

21. Zhang, Z.M., Zhu, C.J., and Hanssen, L.M., 1997, “Absolute Detector Calibration Applied to Nonlinearity Error Correction in FT-IR Measurements,” Applied Spectroscopy, Vol. 51, pp. 576-579.

20. Zhang, Z.M., Hanssen, L.M., Hsia, J.J., Datla, R.U., Zhu, C., and Griffiths, P.R., 1997, “A Procedure for Testing the Radiometric Accuracy of Fourier-Transform Infrared Spectrometers,” Mikrochimica Acta, Supplement 14, pp. 315-316.

19. Zhang, Z.M., and Hanssen, L.M., 1997, “A Computer Simulation of the Non-Linearity Effect on FT-IR Measurements,” Mikrochimica Acta, Supplement 14, pp. 317-319.

18. Zhang, Z.M., Hanssen, L.M., Datla, R.U., and Drew, H.D., 1996, “An Apparatus for Infrared Transmittance and Reflectance Measurements at Cryogenic Temperatures,” International Journal of Thermophysics, Vol. 17, pp. 1441-1454.

17. Zhang, Z.M., Livigni, D.J., Jones, R.D., and Scott, T.R., 1996, “Thermal Modeling and Analysis of Laser Calorimeters,” Journal of Thermophysics and Heat Transfer, Vol. 10, pp. 350-356.

16. Zhang, Z.M., Hanssen, L.M., and Datla, R.U., 1996, “Polarization-Dependent Angular Reflectance of Silicon and Germanium in the Infrared,” Infrared Physics and Technology, Vol. 37, pp. 539-546.

15. Zhang, Z.M., Hanssen, L.M., and Datla, R.U., 1995, “High-Optical-Density Out-of-Band Spectral Transmittance Measurements of Bandpass Filters,” Optics Letters, Vol. 20, pp. 1077-1079.

14. Frenkel, A., and Zhang, Z.M., 1994, “Broadband High Optical Density Filters in the Infrared,” Optics Letters, Vol. 19, pp. 1495-1497.
13. Zhang, Z.M., and Frenkel, A., 1994, “Thermal and Nonequilibrium Responses of Superconductors for Radiation Detectors,” Journal of Superconductivity, Vol. 7, pp. 871-884.

12. Zhang, Z.M., Datla, R.U., Lorentz, S.R., and Tang, H.C., 1994, “Thermal Modeling of Absolute Cryogenic Radiometers,” Journal of Heat Transfer, Vol. 116, pp. 993-998.

11. Zhang, Z.M., Choi, B.I., Flik, M.I., and Anderson, A.C., 1994, “Infrared Refractive Indices of LaAlO3, LaGaO3, and NdGaO3,” Journal of the Optical Society of America B, Vol. 11, pp. 2252-2257.

10. Zhang, Z.M., Le, T.A., Flik, M.I., and Cravalho, E.G., 1994, “Infrared Optical Constants of the High-Tc Superconductor YBa2Cu3O7,” Journal of Heat Transfer, Vol. 116, pp. 253-257.

9. Flik, M.I., Zhang, Z.M., and Goodson, K.E., 1993, “Intrinsic Superconducting Radiation Detector,” Applied Physics Letters, Vol. 62, pp. 2862-2864.

8. Malone, C.G., Zhang, Z.M., Flik, M.I., and Cravalho, E.G., 1993, “Optimized Design of Far-Infrared Fabry-Perot Resonators Fabricated from YBa2Cu3O7,” IEEE Transactions on Applied Superconductivity, Vol. 3, pp. 2852-2855.

7. Zhang, Z.M., and Flik, M.I., 1993, “Predicted Absorptance of YBa2Cu3O7/YSZ/Si Multilayer Structures for Infrared Detectors,” IEEE Transactions on Applied Superconductivity, Vol. 3, pp. 1604-1607.

6. Flik, M.I., Zhang, Z.M., Goodson, K.E., Siegal, M.P., and Phillips, J.M., 1992, “Electron Scattering Rate in Epitaxial YBa2Cu3O7 Superconducting Films,” Physical Review B, Vol. 46, pp. 5606-5614.

5. Choi, B.I., Zhang, Z.M., Flik, M.I., and Siegrist, T., 1992, “Radiative Properties of Y-Ba-Cu-O Films with Variable Oxygen Content,” Journal of Heat Transfer, Vol. 114, pp. 958-964.

4. Zhang, Z.M., Choi, B.I., Le, T.A., Flik, M.I., Siegal, M.P., and Phillips, J.M., 1992, “Infrared Refractive Index of Thin YBa2Cu3O7 Superconducting Films,” Journal of Heat Transfer, Vol. 114, pp. 644-652.

3. Flik, M.I., and Zhang, Z.M., 1992, “Influence of Nonequivalent Detector Responsivity on FT-IR Photometric Accuracy,” Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 47, pp. 293-303.

2. Zhang, Z.M., and Wang, Y.F., 1990, “A Study on the Thermal Storage of the Ground beneath Solar Ponds by Computer Simulation,” Solar Energy, Vol. 44, pp. 243-248.

1. Zhang, Z.M., Ge, X.S., and Wang, Y.F., 1987, “A Novel Pyrheliometer of High Accuracy,” Solar Energy, Vol. 39, pp. 371-377.