Publications                                                                       Home

189. Spin-Diffusion Lengths in Dilute Cu(Ge) and Ag(Sn) Alloys, (Q. Fowler, B. Richard, A. Sharma, N. Theodoropoulou, R. Loloee, W.P. Pratt Jr., and J. Bass).  (In Press, JMMM) (2008).

188. Current-perpendicular to plane (CPP) magnetoresistance of Ferromagnetic (F)/Al interfaces (F = Py, Co, Fe, and Co(91)Fe(9)) and structural studies of Co/Al and Py/Al (A. Sharma, N. Theodoropoulou,T. Hailard, R. Acharyya, R. Loloee, W.P. Pratt Jr., J. Bass, J. Zhang, M.A. Crimp) Phys. Rev. B77, 224438 (2008)

187. Two Simple tests for Models of Current-Induced Magnetization Switching.  (N. Theodoropoulou, A. Sharma, W.P. Pratt Jr. ,J. Bass, M.D. Stiles, J. Xiao) J. Appl. Phys. 103, 07A70 (2008).

186. Studies of Effects of Current on Exchange Bias: A Brief Review.  (J. Bass, A. Sharma, Z. Wei, M. Tsoi), J. of Magnetics (The Korean Magnetics Society) 13, 1 (2008).

185. Ballistic vs Diffusive Transort in Current-Induced Magnetization Switching, (N. Theodoropoulou, A. Sharma, W.P. Pratt Jr., J. Bass, M.D. Stiles, J. Xiao) (Phys. Rev. B76, 220408(R) (2007).

184. Specific Resistance and Scattering Asymmetry of Py/Pd, Fe/V, Fe/Nb, and Co/Pt Interfaces.  (A. Sharma, J.A. Romero, N. Theodoropoulou, R. Loloee, W.P. Pratt Jr., and J. Bass, J. Appl. Phys. 102, 113916 (2007)..

183. HRTEM and EELS Studies of Py/Al and Co/Al Multilayers, (J. Zhang, M. Crimp, N. Theodoropoulou, A. Sharma, R. Loloee, W.P. Pratt  Jr., and J. Bass) Mater. Res. Soc. Symp. Proc. Vol. 998, 0998-J09-04 (2007)

182. Specific Resistance, Scattering Asymmetry, and some Thermal Instability, of Co/Al, Fe/Al, and Co91Fe9/Al Interfaces, (N. Theodoropoulou, A. Sharma T. Haillard, R. Loloee, W.P. Pratt Jr., and J. Bass, J. Zhang, and M.A. Crimp), IEEE Trans. On Magn. 43, 2860 (2007).

181. Spin-Diffusion Lengths in Metals and Alloys, and Spin-Flipping at Metal/Metal Interfaces: an Experimentalist’s Critical Review (J. Bass and W.P. Pratt Jr.), J. Phys. Cond. Matt. 19, 183201 (2007).

180.  Changing Exchange Bias in Spin Valves with an Electric Current (Z. Wei, A. Sharma, A.S. Nunez, P.M. Haney, R.A. Duine, J. Bass, A.H. MacDonald, and M. Tsoi), Phys. Rev. Lett. 98, 116603 (2007).

179. Effect of asymmetric leads on critical switching current in magnetic nanopillars. (H. Kurt, M. AlHajDarwish, W.P. Pratt Jr., and J. Bass), Appl. Phys. Lett. 89, 082513 (2006).

178. Interface Specific Resistance and Scattering Asymmetry of Permalloy/Al. (N. Theodoropoulou, A. Sharma, R. Loloee, W.P. Pratt Jr.,  J. Bass, A. Fert, and H. Jaffres) J. Appl. Phys. 99, 08G502 (2006).

177. Studies of Current-Driven Excitations in Co/Cu/Co Trilayer Nanopillars, (S. Urazhdin, N.O. Birge, W.P. Pratt Jr., and J. .Bass), "Theory of Quantum Transport in Metallic and Hybrid Nanostructures, A.Glatz et al., (Eds), Springer (2006), Pg 39.

176. Comparison of Measured and Calculated Specific Resistances of Pd/Pt Interfaces (S.K. Olson, R. Loloee, N. Theodoropoulou, W.P. Pratt Jr., J. Bass, P.X. Xu, and Ke Xia), Appl. Phys. Lett. 87, 252508 (2005).

175. Pd/Ag and Pd/Au Interface Specific Resistances and Interfacial Spin-Flipping (C. Galinon, K. Tewolde, R. Loloee, W.-C. Chiang, S. Olson, H. Kurt, W.P. Pratt Jr., J. Bass, P.X. Xu, Ke Xia, and M. Talanana) Applied Physics Letters, 86, 182502 (2005).

174. Manipulating Current-Induced Magnetization Switching, (S. Urazhdin, H. Kurt, M. AlHajDarwish, N.O. Birge, W.P. Pratt Jr., and J. Bass) J. Appl. Phys. 97, 10C701 (2005).

173. . Current-induced Magnetization Switching in Permalloy-based nanopillars with Cu, Ag, and Au, (H. Kurt, R. Loloee, W.P. Pratt Jr., and J. Bass) J. Appl. Phys. 97, 10C706 (2005).

172. Electrical Resistivities of Metals and Alloys, (J. Bass) in Encyclopedia of Condensed Matter Physics (Elsevier Publ.) Bassani, Liedl, Wyder Eds., Vol. 1, pps 219-225, (2005).

171. Changes in Magnetic Scattering Anisotropy at a Ferromagnetic/Superconducting Interface (K . Eid, H. Kurt, W.P. Pratt Jr. and J. Bass), Phys. Rev. B70, 100411(R) (2004).

170. Controlled Normal and Inverse Current-Induced Magnetization Switching and Magnetoresistance in Magnetic Nanopillars, (M. AlHajDarwish, H. Kurt, S. Urazhdin, A. Fert, R. Loloee, W.P. Pratt Jr., and J. Bass), Phys. Rev. Lett. 93, 157203 (2004).

169. Studies of DC Current-Driven Switching in Ni(84)Fe(16)/N/Ni(84)Fe(16) Magnetic Nanopillars with N = Cu or Cu(Pt), (S. Urazhdin, W.P. Pratt Jr., and J. Bass), J. Magn. Magn. Mat. 282, 264 (2004)..

168. Search for Mean-Free-Path Effects in Current Perpendicular-to-Plane Magnetoresistance, (Wen. C. Chiang, C. Ritz, K. Eid, R. Loloee, W.P. Pratt Jr., and J. Bass), Phys. Rev. B69, 184405 (2004)

167. Current Driven Switching in Magnetic Multilayer Nanopillars, (S. Urazhdin, N.O. Birge, W.P. Pratt Jr., and J. Bass), J. Appl. Phys. 95, 7429 (2004), .

166. Inverted Current-Driven Switching in Fe(Cr)/Cr/Fe(Cr) Nanopillars, (M. AlHajDarwish, A. Fert, W.P. Pratt Jr., and J. Bass) J. Appl. Phys. 95, 6771 (2004).

165. Coupling Effects on Current-Assisted Magnetization Switching, (S. Urazhdin, W.P. Pratt Jr., and J. Bass), J. Magn. Magn. Mat. 272-276, 1586 (2004)..

164. Current-Driven Excitations in Magnetic Multilayers, A Brief Review (J. Bass, S. Urazhdin, N.O. Birge, and W.P. Pratt Jr.), Phys. Stat. Sol. (a) 201, 1379 (2004).

163. Switching Current vs Magnetoresistance in Magnetic Multilayer Nanopillars, (S. Urazhdin, N.O. Birge, W.P. Pratt Jr., and J. Bass), Appl. Phys. Lett. 84, 1516 (2004).

162. Current-driven Magnetic Excitations in Permalloy-Based Multilayer Nanopillars (S. Urazhdin, N.O. Birge, W.P. Pratt Jr., and J. Bass), Phys. Rev. Lett. 91, 146803 (2003).

161.  Effect of Antiferromagnetic Interlayer Coupling on Current-Assisted Magnetization Switching, (S. Urazhdin, H. Kurt, W.P. Pratt Jr. and J. Bass), Appl. Phys. Lett. 83, 114 (2003).

160. Spin-Memory Loss and CPP-Magnetoresistance in Sputtered Multilayers with Au (H. Kurt, Wen-C. Chiang, C. Ritz, K.Eid, W.P. Pratt Jr., and J. Bass), J. Appl. Phys. 93, 7918 (2003).

159.  Enhancing Current-Perpendicular-to-Plane Magnetoresistance (CPP-MR) by Adding Interfaces Within Ferromagnetic Layers (K. Eid, W.P. Pratt Jr., and J. Bass) J. Appl. Phys, 93, 3445 (2003). 

158. Magnetotransport (Experimental), J. Bass, in “Spin Transport and Magnetic Interactions" Book,  Eds. A. Chtchelkanova, S. Wolf, and Y. Idzerda, Kluwer/Plenum (2003), Pgs. 210-312..

157. Spin-Memory Loss at 4.2K in Sputtered Pd, Pt, and at Pd/Cu and Pt/Cu Interfaces (H. Kurt, R. Loloee, K. Eid, W.P. Pratt Jr., and J. Bass), Appl. Phys. Lett. 81, 4787 (2002).

156. Current driven Resonances in Magnetic Multilayers (M. Tsoi, V. Tsoi, J. Bass, A.G.M. Jansen, and P. Wyder), Phys. Rev. Lett 89, 246803 (2002).

155. Interfacial Properties of Fe/Cr Multilayers n the Current-Perpendicular-to-Plane Geometry, (A. Zambano, K. Eid, R. Loloee, W.P. Pratt Jr., and J. Bass) JMMM Lett. 253, 51 (2002)..

154. Version 7/21/01 Current-Perpendicular-to-Plane (CPP) Magnetoresistance, (J. Bass and W.P. Pratt Jr.), Physica B 321, 1 (2002).

153. Current-perpendicular-to-plane Magnetoresistance Properties of Ru and Co/Ru Interfaces, (K. Eid, R. Fonck, M. AlHajDarwish, J. Bass, and W. P. Pratt Jr.), J. Appl. Phys., 91, 8102 (2002).

152. Spin-Memory Loss in Metallic Superlattices, (W.P. Pratt Jr., J.Y. Gu, and J. Bass), MRS Symposium Proc., "Spintronics", T.J. Klemmer, J.Z. Sun, A. Fert, and J. Bass Eds., 690, 173 (2002).

151. Further Evidence against Mean-Free-Path Effects in the CPP-MR, (K. Eid, M. Tsoi, D. Portner, R. Loloee, W.P. Pratt Jr., and J. Bass, J. Magn. Magn. Mat. 240, 171 (2002).

150. Absence of Mean-Free-Path Effects in CPP Magnetoresistance of Magnetic Multilayers. (K. Eid, D. Portner, J. Borchers, R. Loloee, M. AlHaj Darwish, M. Tsoi, H. Kurt, K.V. O’Donavan, W.P Pratt  Jr., and J. Bass. Phys. Rev. B65, 054424 (2002).

149. The Effect of Indium Contamination and Nb Contact Layers on the Structure of Ag/NiFe GMR SVs, (H. Geng, J. W. Heckman, R. Loloee, W.P. Pratt Jr., and M.A. Crimp), Materials Sci. & Eng. B86, 245 (2001).

148.CPP Magnetoresistance of Magnetic Multilayers: Mean-free-path is not the Culprit, (K. Eid, D. Portner, R. Loloee, W.P. Pratt Jr., and J. Bass), J. Magn. Magn. Mat. (224, L205 (2001).

147.Structural Characterization of Epitaxial GMR Magnetic Multilayers and Spin Valves Grown by Sputter Deposition,(H. Geng, R. Loloee, J.W. Heckman,J. Bass, W.P. Pratt Jr. and M.A Crimp) , in Magnetic Materials, Structures, and Processing for Information Storage, M.A. Seigler, C. Murray, T.P. Nolan, S. Wang, and B.J. Daniels, Eds, MRS Proceedings (In Press).

146. Loss of Spin-Direction Memory (Spin-Relaxation) at Non-Magnetic Interfaces, (W. Park, D. Baxter, S. Steenwyk, I. Moraru, W.P .Pratt Jr., and J. Bass), Phys. Rev. B62, 1178  (2000).

145. Generation and Detection of Phase Coherent Current-Driven Magnons in Magnetic Multilayers, (M. Tsoi, A.G.M. Jansen, J. Bass, W.-C. Chiang, V. Tsoi, and P. M. Wyder), Nature 406, 46 (2000).

144. Current Perpendicular Magnetoresistances of NiCoFe and NiFe ‘Permalloys’
(L. Vila, W. Park, J. Cabellero, D. Bozek, R. Loloee, W.P.Pratt Jr., and J. Bass),
J. Appl. Phys. 87, 8610 (2000).

143. Polarized Neutron Reflectivity Characterization of Weakly Coupled Co/Cu Multilayers, (J.A. Borchers, J. A.Dura, C.F. Majkraz, S.Y. Hsu, R. Loloee, W.P. Pratt, and J. Bass) Physica B 283, 162 (2000).

142. Magnetic Depth Profiling Co/Cu Multilayers to Investigate Magnetoresistance, J. Unguris, D. Tulchinsky, M.H. Kelley, J.A. Borchers, J.A Dura, C.F. Majkrzak, (S.Y. Hsu, R. Loloee, W.P. Pratt Jr. and J. Bass), J. Appl. Phys. 87, 6639 (2000).

141. Enhancing Current-Perpendicular Magnetoresistance in Permalloy-based Exchange-Biased Spin Valves by Increasing Spin-Memory Loss, (J.Y. Gu, S.D. Steenwyk, A.C. Reilly, W. Park, R. Loloee, J. Bass, and W.P. Pratt Jr.), J. Appl. Phys. 87, 4831 (2000).

140. Thermoelectricity (Update) McGraw-Hill Encyclopedia of Science and Technology (2000).

139. Magnetotransport in Metals, J. Bass in “Methods in Materials Research”, E.N. Kaufmann Ed., John Wiley & Sons (2000).

138. Studying Conduction Electron-Interface Interactions Using Transverse Electron Focusing, (V.S. Tsoi, J. Bass, and P. Wyder), Rev. Mod. Phys. 71, 1641 (1999).

137. Current Perpendicular (CPP) Magnetoresistance in Magnetic Metallic Multilayers (J. Bass and W.P. Pratt Jr.), J. Magn. Magn. Mat. 200, 274 (1999). (Erratum, JMMM 296, 65 (2006)).

136. Occasional ‘Long Range’ Non-equilibrium bcc Structures in NiFe/Cu Spin-Valves (H. Geng, J.W. Heckman, W.P. Pratt Jr., J. Bass, M. Crimp, F.J. Espinosa, S. Conradson, and D. Lederman) J. Appl. Phys. 86, 4166 (1999).

135. Perpendicular Giant Magnetoresistance of Co91Fe9/Cu Exchange-Biased Spin-Valves: Further Evidence for a Unified Picture, (A.C. Reilly, W. Park, R. Slater, B. Ouaglal, W. P. Pratt Jr., J. Bass), J. Magn. Magn. Mat. 195, L269 (1999).

134. Resistance and Spin-Direction Memory Loss at Nb/Cu Interfaces, (D. Baxter, S.D. Steenwyk, J. Bass, and W.P. Pratt, Jr)., J. Appl. Phys. 85, 4545 (1999).

133. Test of Unified Picture of Spin Dependent Transport in Perpendicular (CPP) Giant Magnetoresistance and Bulk Alloys, (W.-Park, R. Loloee, J. Caballero, W.P. Pratt, Jr., P.A. Schroeder, J. Bass, A. Fert, and C. Vouille) J. Appl. Phys. 85, 4542 (1999).

132. Observation of Antiparallel Order in Weakly Coupled Co/Cu Multilayers,(J. Borchers, J.A. Dura, C.F. Majkrzak, J. Unguris, D. Tulchinsky, M.H. Kelley, S.Y.Hsu,R. Loloee, J. Bass, and W.P. Pratt Jr.) Phys. Rev. Lett. 82, 2796 (1999).

131. Effect of Deposition Parameters on the CPP GMR of NiMnSb-Based Spin-Valve Structures, (J.A. Caballero, A.C. Reilly, Y Hao, J. Bass, W.P. Pratt Jr., F. Petroff, and J.R. Childress) J. Magn. Magn. Mat. 198-199, 55 (1999).

130.Giant Magnetoresistance in Copper/Permalloy Multilayers. (P. Holody, R. Loloee, J. Bass, W.P.Pratt Jr, and P.A; Schroeder) Phys. Rev. B58, 12230 (1998).

129. Structural Studies of Silver/Permalloy and Copper/Permalloy GMR Spin-Valve Multilayers, (H. Geng, W. Zhu, J.W. Heckmann, W.P. Pratt, J. Bass, and M.A. Crimp), in “Mechanisms and Principles of Epitaxial Growth in Metallic Systems”, L.T. Wille, C.P. Burmester, K. Terakura, G. Comsa, and E.D. Williams, Eds., MRS Soc. Symp. Proc. 528, 67 (1998).

128. Giant Magnetoresistance of Current-Perpendicular Exchange-Biased Spin-Valves of Co/Cu. (A.C. Reilly, W.-C. Chiang, W.-J. Park, S.Y. Hsu, R. Loloee, S. Steenwyk, W.P. Pratt Jr. and J. Bass) IEEE Trans. Magn. 34, 939 (1998).

127. Magnetoresistance of NiMnSb-based Multilayers and Spin-Valves. (J.A. Caballero,J.Bass, W.-C. Chiang, A.C. Reilly, W.P. Pratt Jr., F. Petroff, Y.D. Park, and J.R. Childress) J. Vac. Sci & Tech. 16, 1801 (1998).

126. Excitation of a Magnetic Multilayer by Electric Current. (M.Tsoi, A.G.M. Jansen,J. Bass, W.-C. Chiang, M. Seck, V. Tsoi, and P. Wyder). Phys. Rev. Lett. 80, 4281 (1998).(Erratum: PRL 81, 493 (1998)).

125. Current-Perpendicular (CPP) Giant Magnetoresistance--Larger and Simpler thanCurrent-In-Plane (CIP) Giant Magnetoresistance, (J. Bass, W.P. Pratt Jr., and P.A.Schroeder), Comments on Solid State Physics 18(4), 223 (1998).

124. Perpendicular Giant Magnetoresistance of Co/Cu Multilayers with Fluctuating CoLayer Thicknesses, (W.-C Chiang, R. Loloee, W.P. Pratt Jr.), Proc. MRS 475, 451 (1997).

123. Perpendicular-Current Transport in Exchange-Biased Spin-Valves, (W.P. Pratt Jr., S.D. Steenwyk, S.Y. Hsu, W.-C. Chiang, A.C. Schaefer, R. Loloee, and J. Bass), IEEE Transactions on Magn., 33, 3505 (1997).

122. Perpendicular Current Exchange Biased Spin-Valve Evidence for a Short SpinDiffusion Length in Permalloy, (S.D. Steenwyk, S.Y. Hsu, R. Loloee, J. Bass, and W.P.Pratt Jr.) J. Magn. Magn. Mat., 170, L1 (1997).

121. Search for Point-Contact Giant Magnetoresistance in Co/Cu Multilayers. (M.V. Tsoi, A.G.M. Jansen, and J. Bass) J. Appl. Phys. 81, 5530 (1997).

120. Variation of Multilayer Magnetoresistance with Ferromagnetic Layer Sequence:Spin-Memory Loss, (W.-C. Chiang, Q. Yang, W.P. Pratt Jr., P.A. Schroeder, and J. Bass)J. Appl. Phys. 81, 4570 (1997).

119. A Comparison of Hysteresis Loops from Giant Magnetoresistance and Magnetometry of Perpendicular-Current Exchange-Biased Spin-Valves. (S.D. Steenwyk, S.Y. Hsu, R. Loloee, J. Bass, and W.P. Pratt Jr.) J. Appl. Phys. 81, 4011 (1997).

118. Perpendicular Interface Resistances in Sputtered Ag/Cu, Ag/Au, and Au/CuMultilayers (L.L. Henry, Q. Yang, P. Holody, R. Loloee, W.P. Pratt Jr., and J. Bass),Phys. Rev. B54, 12336 (1996).

117. Non-Linear Susceptibility of CuMn and AuFe Spin-Glass Based Multilayers (L. Su,J. A. Cowen, and J. Bass), J. Phys: Cond. Matt., 8, 643 (1996).

116. Resistivities of Sputtered Ni(4.2nm)/Co(tCo)), Ag(3.3nm)/Cu(tCu), andAg(3.3nm)/Au(tAu) Multilayers at 4-5K and 295K., (L.L. Henry, M. Oonk, R. Loloee,Q. Yang, W.P. Pratt Jr., & J. Bass); J. Appl. Phys. 79, 6129 (1996).

115. Finite Size Effects in NiMn Spin-Glass.(L. Hoines, J.A. Cowen, and J. Bass), J. Appl. Phys. 79, 6151 (1996).

114. How Predictable is the Current Perpendicular to the Plane (CPP) Magnetoresistance?(W.P. Pratt Jr., Q. Yang, P. Holody, R. Loloee, L. Henry, W.-C. Qiang, P.A. Schroeder, and J. Bass), J. Appl. Phys. 79, 5811 (1996).

113. Transverse Electron Focusing, Quantum Electron Kinetics, and the Hall Effect in Bi,(V.S. Tsoi, M. D. Jaeger, B. Golding, M.V. Tsoi, and J. Bass), Physica B218, 22 (1996).

112. Current Perpendicular and Parallel Giant Magnetoresistances in Co/Ag Multilayers,S.-F. Lee, Q. Yang,P. Holody, R. Loloee, J.H. Hetherington, S. Mahmood, B. Ikegami, K. Vigen, L.L. Henry, P.A. Schroeder, W.P. Pratt Jr., and J. Bass (Phys.Rev. B52, 15, 426 (1995).

111. High resolution Transmission Electron Microscopy Study of Metallic Spin-Glass/Amorphous Silicon Multilayers, D.A. Howell, M.A. Crimp, L.M. Hoines, andJ. Bass, MRS Proc. 382, T. D. Nguyen et al., Eds., 185 (1995).

110. Thermoelectricity (Update),J. Bass, McGraw-Hill Encyclopedia of Science andTechnology.

109. Studying Spin-Dependent Scattering in Magnetic Multilayers by Means ofPerpendicular (CPP) Magnetoresistance Measurements, (J. Bass, P.A. Schroeder, W. P.Pratt, Jr., S.-F. Lee, Q. Yang, P. Holody, L.L. Henry, and R. Loloee), Mat. Sci. & Eng.,B31, 77 (1995).

108. Prediction and Measurement of Perpendicular (CPP) Giant Magnetoresistance ofCo/Cu/Ni84Fe116/Cu Multilayers (Q. Yang, P. Holody, R. Loloee, L.L. Henry, W.P.Pratt Jr., P.A. Schroeder, and J. Bass), Phys. Rev. 51B, 3226 (1995).

107. Giant Magnetoresistance in Ag/Co and Cu/Co Multilayers with Very Thin CoLayers, (R. Loloee, P.A. Schroeder, W. P. Pratt, Jr., J. Bass, and A. Fert), Physica, B204 274 (1995).

106. Magnetic States of Magnetic Multilayers at Different Fields, (P.A. Schroeder, S.-F. Lee,P. Holody, R. Loloee, Q. Yang, W.P. Pratt Jr., and J. Bass),J. Appl. Phys., 76, 6610 (1994).

105. Conductivity in Metals and Alloys (P.L. Rossiter and J. Bass), Encyclopediaof Applied Physics, 10, 163 (1994).

104. How to Isolate Effects of Finite Spin Diffusion Length on Giant Magnetoresistance inMagnetic Multilayers, (J. Bass, Q. Yang, S.F. Lee, R. Loloee, P.A. Schroeder, and W.P.Pratt, Jr.), J.Appl. Phys. 75, 6699 (1994).

103. Spin Diffusion Length and Giant Magnetoresistance at Low Temperatures,(Q. Yang, P. Holody, S.-F. Lee, L. L. Henry, R. Loloee, P.A. Schroeder, W.P.Pratt Jr.,and J. Bass), Phys. Rev. Lett. 72, 3274 (1994).

102. Giant CPP-Magnetoresistance of Ni/Ag Multilayers, (Q. Yang, S.F. Lee, P. Holody,R. Loloee, P.A. Schroeder, W.P. Pratt Jr., and J. Bass), Physica B194-196, 327 (1994).

101. Finite Size Effects in AuFe Spin Glass Layers, (L. Hoines, J.A. Cowen, and J. Bass),Physica B194-196, 309 (1994).

100. TEM of Electron-Beam Induced Crystallization of an Amorphous AuFe(0.03)/SiSpin-Glass Multilayer, (D.A. Howell, L. Hoines, M.A. Crimp, J. Bass, and J.W.Heckman), Proc. 51st Ann. Mtg. Microscopy Soc. of America, G.W. Bailey & C.L.Reider Eds, San Francisco Press, San Francisco, CA p 1098 (1993).

99. Perpendicular Magnetoresistance in Cu/Co and Cu/NiFe Multilayers, P.A. Schroeder,P. Holody, S.F. Lee, R. Loloee, W.P. Pratt Jr., and J. Bass), MRS Symposium Proc. 313,47 (1993).

98. Giant Magnetoresistance with Current Perpendicular to the Multilayer Planes(W.P. Pratt, Jr., S.-F. Lee, P. Holody, Q. Yang, R. Loloee, J. Bass, and P.A. Schroeder),J. Magn. and Magn. Mat. 126, 406 (1993).

97. Giant Magnetoresistance with Current Perpendicular to the Layer Planes of Ag/Co andAgSn/Co, (W. P. Pratt Jr., S.-F. Lee, P. Holody, R. Loloee, and P.A. Schroeder,Q. Yang, and J. Bass), J. Appl.Phys 73, 5326 (1993).

96. Perpendicular Magnetoresistance in Ag/Co and Cu/Co Multilayers, (P.A. Schroeder,J. Bass, P. Holody, S.-F. Lee, W.P. Pratt, and Q. Yang), NATO ASI Series, "Magnetismand Structure in Systems of Reduced Dimension", R.F.C. Farrow et al., Eds, PlenumPress, NY (1993), Pg. 129.

95.Two-Channel Analysis of CPP-MR Data for Ag/Co and AgSn/Co Multilayers,(S.-F. Lee, W. P. Pratt Jr., Q. Yang, P. Holody, R. Loloee, P. A. Schroeder, and J. Bass),J. Magn. and Magn. Mat. 118, L1 (1993).

94.Field Dependent Interface Resistance" of Ag/Co Multilayers, (S.-F. Lee, W.P. Pratt Jr.,R. Loloee, P.A. Schroeder, and J. Bass), Phys. Rev. (Rapid Comm.) B46, 548 (1992).

93.Coupling of Thin Layers of a Disordered Magnet (Spin Glass) Through a Variety ofMetals, (R. Stubi, L. Hoines, R. Loloee, I. Kraus, J.A. Cowen, and J. Bass),Europhysics Lett. 19, 235 (1992).

92.Transverse Electron Focusing as a Way of Studying Surface Crystallography,(V. S. Tsoi, J. Bass, and P. Wyder), Advances in Physics 41, 365 (1992).

91. Finite Size Effects in Metallic Spin Glasses (J. Bass and J. Cowen), Recent Progress inRandom Magnets, D. Ryan, Ed., (World Scientific Publ., NY), Pg. 177 (1992).

90. Aging in a Two-Dimensional CuMn Spin Glass, (J. Mattsson, P. Granberg,P. Nordblad, L. Lundgren, R. Loloee, R. Stubi, J. Bass, and J.A. Cowen),J. Magn. Magn. Mat., 104-107, 1623, (1992).

89. Multilayered Spin Glass Films--Sensitive Probes of RKKY, (J. Mattsson, P. Granberg,P. Nordblad, L. Lundgren, R. Stubi, R. Loloee, J. Bass, and J.A. Cowen),J. Magn. Magn. Mat., 104-107, 1619, (1992).

88. Electronic Transport in Normal Metals, (P. Rossiter and J. Bass),Materials Scienceand Technology (R.Cahn, P. Haasen, E.J. Kramer, Eds.), (VCH Publ., Weinheim,Germany),3A, 257 (1992).

87. Thermoelectricity (Update), (J. Bass), McGraw-Hill Encyclopedia ofScience and Technology, Vol. T, 311, (1992).

86. Thermoelectricity, (J. Bass), Colliers Encyclopedia, 22, 284 (1991).

85.Dynamics of Coupled Two-Dimensional Cu(Mn) Spin-Glass Films, (P. Granberg, J.Mattsson, P. Nordblad, L. Lundgren, R. Stubi, D.L. Leslie- Pelecky, J. Bass, andJ.A. Cowen), Phys. Rev. B44, 4410 (1991).

84.Finite Size Effects in Thin AgMn Spin-Glass Layers, (R. Stubi, L. Hoines, M.L. Wilson,W.A. Fowler, J.A. Cowen, and J. Bass), Phys. Rev. B44, 5073 (1991).

83.Perpendicular Giant Magnetoresistances of Ag/Co Multilayers (W.P. Pratt Jr., S.-F. Lee,J. M. Slaughter, R. Loloee, P.A. Schroeder, and J. Bass), Phys. Rev. Lett. 66, 3060 (1991).

82. 2D to 3D Recoupling in AgMn/Cu Multilayers (R. Stubi, J.A. Cowen, and J. Bass),J. Appl. Phys. 69, 5054 (1991).

81. Dimensionality Effects in Artificially Layered Spin Glass Structures (J.A. Cowen,P. Granberg, L. Lundgren, R. Stubi, and J. Bass), Proc. LT- 19, Physica 169, 299 (1991).

80.How Thin a Spin Glass is Still a Spin Glass? (L. Hoines, R. Stubi, R.Loloee, J.A. Cowen, and J. Bass), Phys. Rev. Lett. 66, 1224 (1991).

79. Superconductor-Ferromagnet Boundary Resistance (C. Fierz, S.-F. Lee, W.P. Pratt, Jr., P.A. Schroeder, and J. Bass), J. Phys.Cond. Mat: 2, 970 (1990).

78. 2D and 3D Spin Glass Dynamics in Thin Cu(Mn) Films (with J. Mattsson,P. Granberg, P. Norblad, L. Lundgren, R. Stubi, D. Leslie-Pelecky, J. Bass, and J.A. Cowen), Proc. LT-19, Physica B165-166, 461 (1990).

77. Very Low Temperature Thermoelectric Ratio of KRb, KNa and LiMg Alloys (J. Zhao,Z.-Z. Yu, H. Sato, W.P. Pratt, Jr., P.A. Schroeder, and J. Bass), Proc. LT-19, B165-166,247 (1990).

76. Perpendicular Resistance of Thin Co Films in Contact withSuperconducting Nb,(C. Fierz, S.-F. Lee, W.P. Pratt, Jr., P.A. Schroeder, and J. Bass), Proc. LT-19, PhysicaB165-166, 453 (1990).

75. Universality of Finite Size Effects in CuMn and AgMn Spin-Glasses, (J. Cowen,R. Stubi, D. Leslie-Pelecky, and J. Bass), Proc. LT-19, Physica B165-166, 459 (1990).

74. The Temperature Dependent Electrical Resistivities of the Alkali Metals, (J. Bass,W.P. Pratt, Jr., and P.A. Schroeder), Rev. Mod. Phys. 62, 645-744 (1990).

73.Finite Size Effects in Thin CuMn Spin-Glass Layers, (G.G. Kenning, J. Cowen,W.P. Pratt, Jr., R. Stubi, D. Leslie-Pelecky, L. Hoines, W. Leach, M. Wilson, andJ. Bass), Phys. Rev. B42, 2393 (1990).

72. Dimensionality Crossover in CuMn Spin Glass Films, (P. Granberg, P. Norblad,P. Svedlindh, L. Lundgren, R. Stubi, G. Kenning, D. Leslie-Pelecky, J. Bass, andJ. Cowen), J. Appl. Phys. 67, 5252 (1990).

71.Transport Anomalies in K in Contact with Hydro- and Fluorocarbons, (Z.Z. Yu, Y. Qian,H. Bidadi, W.P. Pratt, Jr., P.A. Schroeder, and J. Bass), Phys Rev. B40, 7601 (1989).

70.Very Low Temperature Resistivity of KRb, KNa, and LiMg Alloys, (J. Zhao, Y.J. Qian,Z.-Z. Yu, M.L. Haerle, S. Yin, H. Sato, W.P. Pratt, Jr., P.A. Schroeder, and J. Bass),Phys. Rev. B40, 10309 (1989).

69. Finite Size Effects in a Metallic Spin Glass, (J.A. Cowen, G.G. Kenning, and J. Bass),Invited Paper at 4th Joint MMM-Intermag. Conf., J. Appl. Phys. 64, 5781 (1988).

68.Electronic Transport Properties of Thin Potassium Wires Below 1K: II. ThermoelectricRatio, G (J. Zhao, H. Sato, W.P. Pratt, P.A. Schroeder, Z.-Z. Yu, and J. Bass),Phys. Rev. B37, 8749 (1988).

67.Electronic Transport Properties of Thin Potassium Wires Below 1K: I. Derivative ofElectrical Resistivity, dp/dT (J. Zhao, H. Sato, W.P. Pratt, P.A. Schroeder, and J. Bass),Phys. Rev. B37, 8738 (1988).

66. Electron Transport Properties of Ag/Co Layered Metallic Films (J. Slaughter,W.P. Pratt, H. Sato, P.A. Schroeder, and J. Bass), Proc. LT-18, Kyoto 1987,Jap. J. Appl. Phys. 26, Supp. 26-3, 1451, (1987).

65. Low Temperature Resistivity Anomalies in Concentrated LiMg Alloys (J. Zhao,W.P. Pratt, H. Sato, P.A. Schroeder, and J. Bass), Proc. LT-18, Kyoto 1987,Jap. J. Appl. Phys. 26, Supp. 26-3, 711, (1987).

64. Mass Enhancement from Nernst-Ettingshausen Measurements on Al below 1K(A. Amjadi and J. Bass), Proc. LT-18, Kyoto, 1987, Jap. J. Appl. Phys. 26, Supp. 26-3875 (1987).

63.Nernst-Ettingshausen Measurements on Al below 1K (A. Amjadi and J. Bass),Phys. Rev. B36, 8979 (1987).

62.Point Contact Spectroscopy in Al/In Heterojunctions (H. Sato, K. Yonemitsu, andJ. Bass), Phys. Rev. B35, 2484 (1987).

61.Electron-Electron Scattering in Li, (J. Zhao, W.P. Pratt, Jr., P.A. Schroeder, andJ. Bass), J. Phys. F. 16, L271, (1986).

60.Very Low Temperature Resistivity Anomaly in KRb, KNa and LiMg Alloys, (J. Bass,M.L. Haerle, W.P. Pratt, Jr., Y. Qian, P. Schroeder, S. Yin, Z. Yu, and J. Zhao), Phys.Rev. Lett. 56, 957 (1986).

59.Transport Anomalies in Potassium in contact with polyethylene, (Z.-Z. Yu, W.P. Pratt Jr.,P.A. Schroeder, and J. Bass), J. Phys. F. 15, L147, (1985).

58.Linear Magnetoresistance due to Sample Thickness Variations, with Applications toAluminum, (G. Bruls, J. Bass, A.P. van Gelder, H. van Kempen, and P. Wyder),Phys. Rev. B32, 1927 (1985).

57.The Electrical Resistivity of Na below 1K, (Z.-Z. Yu, W.P. Pratt, Jr., and J. Bass),Phys. Lett., 108A, 164, (1985).

56. The Electrical Resistivity of Na below 1K, (Z.-Z. Yu, W.P. Pratt, Jr.. and J. Bass),Proceedings LT-17, Karlsruhe, August, 1984, North Holland Publishing Co., Pg. 1109.

55. Observation of a Resistance Minimum in Potassium Samples below 0.5K, (Z.-Z. Yu,M.L. Haerle, W.P. Pratt, Jr., P.A. Schroeder, and J. Bass), Proceedings LT-17,Karlsruhe, August, 1984, North Holland Publishing Co., Pg. 1105.

54. Low Temperature Anomaly in the Resistivity of KRb Alloys, (Z.Z. Yu, M. Haerle,W.P. Pratt, Jr., P.A. Schroeder, and J. Bass), Proceedings LT- 17, Karlsruhe, August,1984, North Holland Publishing Co., Pg. 1107.

53.A Negative Temperature Derivative of Resistivity in Thin Potassium Samples:TheGurzhi Effect? (Z.-Z. Yu, M. Haerle, J.W. Zwart, W.P. Pratt, P.A. Schroeder, andJ. Bass) Phys. Rev. Lett. 52, 368 (1984).

52. Electrical Resistivity of Metals and Alloys at Cryogenic Temperatures: A Review,(J. Bass), Proceedings ICMC Conference, Colorado Springs, CO, August 1983.Advances in Cryogenic Engineering 30, 441 (1984).

51.The Electrical Resistivities of Li and Rb Below 1K, (Z.-Z. Yu, M. Haerle, J.W. Zwart,W.P. Pratt, Jr., P.A. Schroeder, and J. Bass), Phys. Lett. 97A, 61 (1983).

50. Size Dependence of the Thermopowers of Pure Metals, (J. Bass), Landolt-BornsteinTables, New Series, III/15a, Springer-Verlag Publ., Pgs. 385-396 (1982).

49. Thermoelectricity (Update), (J. Bass), McGraw-Hill Encyclopedia of Science andTechnology, Vol. 13, Pgs. 295-304 (1982).

48. Electrical Resistivity of Pure Metals and Dilute Alloys, (J. Bass) Landolt-BornsteinTables, New Series, III/15a, Springer-Verlag Publ., Pgs. 1-288 (1982).

47.Anomalous Electrical Resistivity of Potassium Below 0.35K, (C. W. Lee, M. Haerle,V. Heinen, W. P. Pratt, J. Rowlands, P.A. Schroeder, and J. Bass), Phys. Rev. B25,1411, (1982).

46. High Precision Electrical Resistivity Measurements on Potassium, (W.P. Pratt, Jr.,C.W. Lee, M.L. Haerle, V. Heinen, J.A. Rowlands,P.A. Schroeder, and J. Bass), Proc. LT-16, Physica 108B&C, 863 (1981).

45.Linear Magnetoresistance caused by Sample Thickness Variations, (G.J.C.L. Bruls,J. Bass, A.P. van Gelder, H. van Kempen, and P. Wyder), Phys. Rev. Lett. 46, 553(1981).

44.The Electrical Resistivity of Aluminum below 4.2K, (J.H.J.M. Ribot, J. Bass,H. van Kempen, R. van Vucht, and P. Wyder), Phys. Rev. B23, 532 (1981).

43.Concerning Proposed Superconducting Fluctuations in the Electrical Resistivity of BulkAluminum, (B.R. Barnard, A.D. Caplin, M.N.B. Dalimin, and J. Bass), Phys. Rev. Lett.44, 680 (1980).

42.Transverse Electron Focusing and Specular Reflection in Silver, (V.S. Tsoi, J. Bass,P. Benistant, H. van Kempen, E. Payens, and P. Wyder), J. Phys. F9, L221 (1979).

41.Electronic Transport in Tungsten and Iron-Doped Tungsten below 1K, (C. Uher,M. Khoshnevisan, W.P. Pratt, and J. Bass), J. Low Temp. Phys. 36, 539 (1979).

40.Further Evidence for Electron-Electron Scattering in Al, J.H.J.L. Ribot, J. Bass,H. van Kempen and P. Wyder), J. Phys. F:Metal Phys. 9, L117 (1979).

39. Observed and Predicted Many-Body Effects in Thermoelectricity in Metals,(J. Bass and J.L. Opsal), J. de Physique, LT-15, C6-1031 (1978).

38. Magnetothermopower and Magnetoresistivity of PtCo, (C.W. Lee, J.R. Cleveland,C.L. Foiles, and J. Bass), J. Appl. Phys. 49, 2174 (1978).

37.Thermopower and Magneto-Thermopower of PtCo, (C.W. Lee, C.L. Foiles, andJ. Bass), Proc. Int. Conf. on Thermoelectricity in Metallic Conductors, Blatt andSchroeder, Eds., Plenum Press, 1978, pp 307-314.

36. Thermoelectric Measurements at Millikelvin Temperatures, (W.P. Pratt, Jr., C. Uher,P.A. Schroeder, and J. Bass), Proc. Int. Conf. on Thermoelectricity in MetallicConductors, Blatt and Schroeder, Eds., Plenum Press, 1978, pp 265-280.

35.Measurement of Electron-Phonon Mass Enhancement in Thermoelectricity, (J. Bass,R. Fletcher, J.L. Opsal, and B.J. Thaler), Proc. Int. Conf. onThermoelectricity inMetallic Conductors, Blatt and Schroeder, Eds., Plenum Press, 1978, pp 233-240.

34.The Low Temperature, High Field Nernst-Ettingshausen Coefficient of Al,(B.J. Thaler, R. Fletcher, and J. Bass), J. Phys. F:Metal Phys. 8, 131 (1978).

33.Thermopower Anomalies in PtCo in the Temperature Range 4K to 300K,(J.R. Kuhn, C.L. Foiles, and J. Bass), Phys. Lett. 63A, 401 (1977).

32.Conference Summary, (J. Bass), Proceedings EPS Study Conference on Transport inNormal Metals and Alloys Well Below R , (May 1977).

31.Electron-Phonon Mass Enhancement, A Many-Body Effect in Thermoelectricity, (J. Bassand J.L. Opsal), Proceedings, EPS Study Conference on Transport in Normal Metals andAlloys Well Below R , May 1977.

30.Electrical Resistivity and Thermoelectric Ratio of Reference Grade Pt Below 1K,C. Uher, C. W. Lee, and J. Bass), Phys. Lett. 61A, 344 (1977).

29.A Resistivity Minimum in Tungsten and its Correlation with Thermoelectric Anomalies,Uher, D. Mundinger, and J. Bass), J. Phys. F:Metal Phys. 7, 1691 (1977).

28. Thermoelectricity, (J. Bass), McGraw-Hill Encyclopedia of Science and Technology,Vol. 13, Pgs. 600-607 (1977).

27.The Electrical Resistivity of Tungsten Below 1K, (E.L. Stone III, M.D. Ewbank,W.P. Pratt, and J. Bass), Phys. Lett. 59A, 168 (1976).

26.Low Temperature Electron Diffusion Magnetothermopower of Aluminum: I.Experiment, (B.J. Thaler and J. Bass), J. Phys. F:Metal Phys. 6, 2315 (1976).

25.Giant-Magneto-Thermopower Oscillations in Indium, (B.J. Thaler and J. Bass), Phys.Lett. 58A, 489 (1976).

24.Thermoelectric Measurements on Tungsten at Ultra-Low Temperatures,(E.L. Stone, III., M.D. Ewbank, W.P. Pratt, and J. Bass), Phys. Lett. 58A, 239 (1976).

23.Electron-Phonon Mass Enhancement in Thermoelectricity, (J.L. Opsal, B.J. Thaler, andJ. Bass), Phys. Rev. Lett. 36, 1211 (1976).

22.Phonon-Enhanced Effective Mass Thermopower Oscillations in Aluminum,(B.J. Thaler and J. Bass), J. Phys. F:Metal Phys. 5, 1554 (1975).

21. Evidence for Specular Reflection in Thin Tungsten Wire, (E.L. Stone III,M. Khoshnevisan, and J. Bass) Phys. Cond. Mat. 19, 383 (1975).

20.The Vacancy Formation Energy in Platinum, (J. Zetts and J. Bass), Phil. Mag. 31, 419(1975).

19.Measurements of Quenched-in Resistivity in Thin Single Crystal Tungsten Wires,(M. Khoshnevisan, E.L. Stone III, and J. Bass), Phil. Mag. 30, 105 (1974).

18. A.C. Measurements of the Seebeck Coefficient of Nickel Near Its Curie Temperature,(C. Piotrowski, C.H. Stephan, and J. Bass), Proc. LT-13, 4, 417 (1974).

17.Magnetic Field Dependence of the Thermopower of Dilute Aluminum Alloys,(R.S. Averback, C.H. Stephan, and J. Bass), J. Low Temp. Phys. 12, 319 (1973).

16.Comment on the Stewart-Huebener Procedure for Determining Deviations fromMatthiessen's Rule, (J. Bass), Phys. Rev. B7, 898 (1973).

15.Deviations from Matthiessen's Rule, (J. Bass), Adv. in Phys., 21, 431 (1972).

14.Magnetically Induced Sign Change in the Thermopowers of Aluminum and Indium,(R.S. Averback and J. Bass), Phys. Rev. Lett. 26, 882 (1971).

13.A Study of Vacancies in Tungsten Quenched in Superfluid Helium, (R.J. Gripshover,M. Khoshnevisan, J. Zetts, and J. Bass), Phil. Mag. 22, 757 (1970).

12.An A. C. System for Measuring Thermopower, (R.H. Freeman and J. Bass), Rev. Sci.Inst. 11, 1171 (1970).

11.Vacancies and Matthiessen's Rule in Gold and Platinum, (R.J. Gripshover, J. Zetts, and J.Bass), Phys. Lett. 29A, 255 (1969).

10.The Resistivity of Fine Platinum Wires, (R. Freeman, F.J. Blatt, and J. Bass), Phys. derKond. Mat. 9, 271 (1969).

9.Size-Dependent Deviations from Matthiessen's Rule in Aluminum, (J.B. Van Zytveld andJ. Bass), Phys. Rev. 177, 1072 (1969).

8. Quenching Platinum and Tungsten in Superfluid Helium, (R. Gripshover, J. Zetts, andJ. Bass), K. F. A. Report on Proceedings of the International Conference on Vacanciesand Interstitials in Metals, Julich, Germany, September 1968.

7.The Thermopower of Pure Aluminum, (R. Gripshover, J.B. Van Zytveld, and J. Bass),Phys. Rev. 163, 598 (1967).

6.Vacancy-Impurity Binding Energies in Aluminum-Tin Alloys, (J. Bass), Phys. Lett. 24A,153 (1967).

5.The Formation and Motion Energies of Vacancies in Aluminum, (J. Bass), Phil. Mag. 15,717 (1967).

4. Vacancy Migration to Sinks During Quenches, (C.P. Flynn, J. Bass, and D. Lazarus),Lattice Defects in Quenched Metals, (Academic Press Inc., New York, 1965), p. 639.

3.Quenched Resistance in Dilute Gold-Tin and Gold-Silver Alloys, (J. Bass), Phys. Rev.137, 765 (1965).

2.The Formation and Motion Energies of Vacancies in Gold, (C.P. Flynn, J. Bass, and D.Lazarus), Phil. Mag. 11, 521 (1965).

1.Effect of Pressure on the Mobility of Interstitial Carbon in Iron, (J. Bass and D. Lazarus),J. Phys. Chem. Solids 23, 1820 (1962).