106. Observation of inversionless gain and field-assisted lasing in a nearly ideal three-level cascade-type atomic system, P. B. Sellin, G. A. Wilson, K. K. Meduri, and T. W. Mossberg, Phys. Rev. A 54, 2402 (1996).
107. Single-sideband spectral holographic optical memory, H. Lin, T. Wang, and T. W. Mossberg, Opt. Lett. 21, 1866 (1996).
108. Intrinsically Irreversible Multi-Photon Laser Gain Mechanisms, P. B. Sellin, C. C. Yu, J. R. Bochinski, and T. W. Mossberg, Phys. Rev. Lett 78, 1432 (1997).
109. Study of incoherent emission from atoms using homodyned spectrum, G. S. Agarwal, R. P. Singh, and T. W. Mossberg, Opt. Commun. 137, 254 (1997).
110. Driving the driven atom: spectral signatures, C. C. Yu, J. R. Bochinski, T. M. V. Kordich, and T. W. Mossberg, Phys. Rev. A 56, R4381 (1997).
111. Photon Echo Signals: Beyond Unit Efficiency, T. Wang, C. Greiner, and T. W. Mossberg, Opt. Commun. 153, 309 (1998).
112. Optical waveform processing and routing with structured surface gratings, W. R. Babbitt and T. W. Mossberg, Opt. Commun. 148, 23 (1998).
113. Laser frequency stabilization by means of optical self-heterodyne beat-frequency control, C. Greiner, B. Boggs, T. Wang, and T. W. Mossberg, Opt. Lett. 23, 1280 (1998).
114. Experimental observation of photon echoes and power efficiency analysis in a cavity environment, T. Wang, C. Greiner, and T. W. Mossberg, Opt. Lett. 23, 1736 (1998)
115. Simple high-coherence rapidly tunable external-cavity diode laser, B. Boggs, C. Greiner, T. Wang, H. Lin, and T. W. Mossberg, Opt. Lett. 23, 1906 (1998).
116. Fibre Bragg grating based spectral encoder/decoder for lightwave CDMA, A. Grunnet-Jepsen, A. E. Johnson, E. S. Maniloff, T. W. Mossberg, M. J. Munroe, and J. N. Sweetser, Electron. Lett. 35, 1096 (1999).
117. Experimental study of photon-echo size in optically thick media, T. Wang, C. Greiner, J. R. Bochinski, and T. W. Mossberg, Phys. Rev. A 60, R757 (1999).
118. Polarization-dependent Rabi frequency beats in the coherent response of Tm3+ in YAG, C. Greiner, B. Boggs, T. Loftus, T. Wang, and T. W. Mossberg, Phys. Rev. A 60, R2657 (1999).
119. Demonstration of all-fiber sparse lightwave CDMA based on temporal phase encoding, A. Grunnet-Jepsen, A. E. Johnson, E. S. Maniloff, T. W. Mossberg, M. J. Munroe, and J. N. Sweetser, IEEE Photonics Technology Letters 11, 1283 (1999).
120. Spatially distributed spectral storage, A. E. Johnson, E. S. Maniloff, and T. W. Mossberg, Opt. Lett. 24, 1526 (1999).
121. Optical code-division multiple access (O-CDMA) interconnects and telecommunication networks based on temporally accessed spectral mulitplexing (TASM), A. Grunnet-Jepsen, A. E. Johnson, E. S. Maniloff, T. W. Mossberg, M. J. Munroe, J. N. Sweetser, Proc. SPIE - Int. Soc. Opt. Eng. 3632, 36 (1999).
122 Laser Modulation Technique for Single Isotope Spectroscopic Studies, J. R. Bochinski, T. Loftus, and T. W. Mossberg, Phys. Rev. A (Rapid Communications) 61, 041404 (2000).
123. Power Dependent Loss from an Ytterbium Magneto-Optic Trap, T. Loftus, J. R. Bochinski, R. Shivitz, and T. W. Mossberg, Phys. Rev. A (Rapid Communications) 61, 051401 (2000).
124. Probing Magneto-Optic Trap Dynamics through Weak Excitation of a Coupled Narrow-Linewidth Transition, T. Loftus, J. R. Bochinski, and T. W. Mossberg, Phys. Rev. A (Rapid Communications) 61, 061401 (2000).
125. Instability and pulse area quantization in accelerated superradiant atom-cavity systems, C. Greiner, T. Wang, T. Loftus, and T. W. Mossberg, Phys. Rev. Lett. 87, 253602/1 (2001).
126. Cavity accelerated superradiance and pulse area quantization, C. Greiner, B. Boggs, T. Wang, T. Loftus, and T. W. Mossberg, Opt. and Photonics News, 12, 59 (2001).
127. Vacuum-mediated multiphoton transitions, J. R. Bochinski, C. C. Yu, T. Loftus, and T. W. Mossberg, Phys. Rev. A 63, 051402/1 (2001).
128. Simultaneous multi-isotope trapping of ytterbium, T. Loftus, J. R. Bochinski, and T. W. Mossberg, Phys. Rev. A 63, 053401/1 (2001).
129. Planar Holographic Optical Processing Devices, T. W. Mossberg, Opt. Lett. 26, 414 (2001).
130. Optical code-division multiplexing, T. W. Mossberg and M. G. Raymer, Opt. and Photonics News 12, 50 (2001).
131. Optical double-resonance cooled-atom spectroscopy, T. Loftus, J. R. Bochinski, and T. W. Mossberg, Phys. Rev. A 63, 023402/1 (2001).
132. Magnetic trapping of ytterbium and alkaline-earth metals, T. Loftus, J. R. Bochinski, and T. W. Mossberg, Phys. Rev. A 66, 013411/1 (2002).
133. Frustrated pulse-area quantization in accelerated superradiant atom-cavity systems, Greiner, C.; Boggs, B.; Mossberg, T.W., Physical Review A 67, 63811 (2003).
134. Fourier-Transform-Limited Performance of a Lithographically Scribed Planar Holographic Bragg Reflector, C. Greiner, D. Iazikov, and T. W. Mossberg, Photonics Technology Lett., IEEE 16, 840-2 (2004).
135. Lithographically Fabricated Planar Holographic Bragg Reflectors, C. Greiner, D. Iazikov, and T. W. Mossberg, J. Lightwave Tech. 22, 136-45 (2004).
136. Effective gray scale in lithographically scribed planar holographic Bragg reflectors. Iazikov, C. Greiner, and T. W. Mossberg, Appl. Opt. 43, 1149 (2004).
137. Bandpass engineering of lithographically scribed channel-waveguide Bragg gratings, Opt. Lett. 29, 806 (2004).
138. Holographic Bragg Reflectors, Photonic Bandgaps and Photonic Integrated Circuits, T. W. Mossberg, C. M. Greiner, and D. Iazikov, Opt. Photonics News 15, 26 (2004).
139. Apodizable Integrated Filters for Coarse WDM and FTTH-Type Applications, D. Iazikov, C. Greiner, and T. W. Mossberg, J. Lightwave Tech. 22, 1402 (2004).
140. Planar-waveguide integrated spectral comparator, T. W. Mossberg, D. Iazikov, and C. Greiner, J. Opt. Soc. Am. A 21, 1088 (2004).
141. Wavelength division multiplexing based on apodized planar holographic reflectors, C. M. Greiner, D. Iazikov, and T. W. Mossberg, Appl. Opt. 43, 1149 (2004).
142. Low-loss Silica-on-Silicon Fabry-Perot Cavity Based on Holographic Bragg Reflectors, C. Greiner, D. Iazikov, and T. W. Mossberg, Opt. Lett. 30, 38 (2005).
143. Interferometric amplitude apodization of integrated gratings, Opt. Exp. 13, 2419 (2005).
144. Demonstration of mode conversion using anti-symmetric waveguide Bragg gratings, J. Castro, D. F. Geraghty, S. Honkanen, C. M. Greiner, D. Iazikov, and T. W. Mossberg, Opt. Exp. 13, 4180 (2005).
145. Integrated holographic encoder for wavelength-hopping/time-spreading optical CDMA, Y. K. Huang, V. Baby, P. R. Prucnal, C. M. Greiner, D. Iazikov, T. W. Mossberg, Photonics Tech. Lett. 17, 825 (2005).
146. Integrated holographic filters for flat passband optical multiplexers, D. Iazikov, C. M. Greiner, and T. W. Mossberg, Opt. Exp. 14, 3497 (2006).
147. Optical add-drop multiplexers based on the antisymmetric waveguide Bragg Grating, J. M. Castro, D. F. Geraghty, S. Honkanen, C. M. Greiner, D. Iazikov, and T. W. Mossberg, Appl. Opt. 45 1236 (2006).
148. Compact OCDMA encoders based on the antisymmetric waveguide Bragg Grating, J. M. Castro, I. Djordjevic, L. Minkov, C. M. Greiner, D. Iazikov, T. W. Mossberg, and D. F. Geraghty, Photonics Tech. Lett. 18, 892 (2006).
