1. The theory of the contributions of excitons to the complex dielectric
constant of crystals. Phys. Rev. 112, 155, 1958.
2. A theory of edge-emission phenomena in CdS, ZdS, and ZnO. J.Phys.Chem.
Solids 10, 110, 1959.
3. Exciton spectrum of CdS. (with D.G. Thomas.) Phys. Rev. 116, 573,
4. On some observable properties of longitudinal excitons. (with
D.G. Thomas.) J. Phys. Chem. Solids
12, 276, 1960.
5. Fine structure in the optical absorption edge of anisotropic crystals.
Phys. and Chem. of Solids 15, 97, 1960.
6. Photon momentum effects in the magneto-optics of excitons. (with
D.G. Thomas.) Phys. Rev.Letters 4, M524, 1960.
7. Polarization of the edge emission in CdS. (with R.J. Collins.)
Phys. Rev. 120, 840, 1960.
8. Excitons and the absorption edge of cadmium sulfide. (with D.Thomas
& M.Power.) Phys.
Rev.119, 570, 1960.
9. Direct observation of exciton motion in CdS. (with D.B. Thomas.)
Phys. Rev. Letters 5, 505, 1960.
10. Fine structure and magneto-optic effects in the exciton spectrum
of cadmium sulfide. (with D.G.
Thomas.) Phys. Rev. 122, 35, 1961.
11. Magneto-optic absorption spectrum of CdS. (with D.G. Thomas)
Intl. Conf. Semicond. Phys.,
12. Selection rules connecting different points in the Brillouin
zone. (with M. Lax) Phys. Rev.
124, 115, 1961.
13. A magneto-stark effect and exciton motion in CdS. (with D.G.
Thomas) Phys. Rev. 124, 657, 1961.
14. Exciton states and band structure in CdS and CdSe. J. Appl. Phys.
32, 2277, 1961.
15. Excitons and the absorption edge in ZnO. (with R.E. Dietz and
D.G. Thomas) J. Appl. Phys. 32,
16. On the energy dependence of the absorption constant and photoconductivity
near a direct band gap.
J. Phys. Chem. Solids, 22, 63, 1961.
17. Bound exciton complexes. (with D.G. Thomas.) Phys. Rev. Letters
7, 316, 1961.
18. Classical explanation of the anomalous magnetoresistance of bismuth.
Phys. Rev. Letters 8, 311,
19. Mirror Absorption and Fluorescence in ZnTe (with R. G. Dietz
and D. G. Thomas), Phys Rev
Letters 8, 361 (1962).
20. Electron-phonon coupling in impurity states. Proceedings of the
Ibnternational Conference on the
Physics of Semiconductors, Inst. of Physics & Physical Soc., 75-80,
21. Optical Properties of Bound Exciton Complexes in CdS (with D.
G. Thomas) Phys Rev 128, 2135
22. Fluorescence in CdS and its possible use as an optical maser.
(with D.G. Thomas.) J. Appl. Phys.
33, 3243, 1962.
23. Pair spectra in GaP. (with D.G. Thomas and M. Gershenzon.) Phys,
Rev. Letters 10, 414, 1963.
24. Theoretical and experimental effects of spatial dispersion on
the optical properties of crystals. (with
D.G. Thomas.) Phys. Rev. 132, 563, 1963.
25. Two-quantum absorption spectrum of KI. (with J.M Worlock and
K. Park.) Phys. Rev. Letters 9,
26. Proposal for beating two optical masers. (with G.D. Mahan) J.
Appl. Phys. 34, 1531, 1963.
27. Bound excitons in GaP. (with Thomas and Gershenzon.) Phys. Rev.
131, 2397, 1963.
28. Optical effects of energy terms linear in wave vector. (with
G.D. Mahan.) Phys. Rev. 135, A428,
29. Piezoelectric polaron effects in CdS. (with G.D. Mahan.) Phys.
Rev. Letters 12, 241, 1964.
30. Coupled-optical-phonon-mode theory of infrared dispersion in
BaTiO3, SrTiO3 , and KlaO3 . (with
A.S. Barker, Jr.) Phys. Rev. 135, A1732, 1964.
31. On the existence of magnetic monopoles (with R. A. Ferrell) Physics
1, 1, 1964.
32. Quantum chemistry of bound exciton complexes. Proceed. 7th.Intl.
Conf., Paris, 725, 1964.
33 Light from distant pairs: radiative recombination in semiconductors.
(with D. G. Thomas and K.
Kolbow.) Proceed. 7th.Intl. Conf., Paris, 67, 1964.
34. Two quantum absorption spectrum of KI and CsI. (with J.M. Worlock.)
Phys. Rev. 137, A1455,
35. Effect of electron-electron interactions on photoemission in
simple metals. Phys. Rev. 139, A419,
36. Polariton absorption lines (with D.G. Thomas) Phys. Rev. Letters
15, 517, 1965.
37. Kinetics of radiative recombination at randomly distributed donors
and acceptors. (with D. G.
Thomas and A. Augustynick.) Phys. Rev. 140, A202, 1965.
38. Isoelectronic traps due to nitrogen in gallium phosphide. (w/D.G.
Thomas and C.J. Frosch.) Phys.
Rev. Letters 15, 857, 1965.
39. Raman scattering by polaritons. (with C.H. Henry.) Phys. Rev.
Letters 15, 964, 1965.
40. Mechanism for lunar polarization. Science 1511, 1380, 1966.
41. Aspects of polaritons. Journal of Phys. Soc. of Japan 21, 77-88,
42. Free and bound excitons: I Excitons as electronic states; II
Aspects of polaritons; III Bound excitons.
Proceedings of the Varenna Summer School, 1966.
43. Effects of electron-electron interactions on the optical properties
of metals. Dyn. Proc. in Solid
State Physics, 116-127, 1966.
44. Elastic scattering at inelastic thresholds application to solids.
Dyn. Proc. in Solid State Physics,
45. Isoelectronic traps due to nitrogen in gallium phosphide. (with
D.G. Thomas) Phys. Rev. 150, 680,
46. Electronic Raman scattering by acceptors. (with C.H. Henry and
L.C. Luther) Phys. Rev. Letters
17, 1178, 1966.
47. Isolectronic donors and acceptors (with D.G. Thomas and R.T.
Lynch.) Phys. Rev. Letters 17,
48. Optical properties and infrared emission of the moon. Amer. Astronautical
Soc. 13, 101-120, 1967.
49. Interference between intermediate states in optical properties
of nitrogen-doped gallium phosphide
(with P. J. Dean and D. G. Thomas) Phys. Rev. 158, 748, 1967.
50. Radiative recombination at shallow centers, II-VI Semiconducting
compounds. 1967 Intl. Conf.,
786-804, Benjamin Press. 1967
51. New approach to transport theory in classical gases. (with A.
Bastin.) Phys. Rev. 168, 193, 1968.
52. Isoelectronic impurities in semiconductors. (with R.A. Faulkner.)
Local.Excit. in Solids, Plenum,
53. A localized exciton bound to cadnium and oxygen in gallium phosphide.
(w/C. Henry, P. Dean & D.
Thomas) Wallis, op. cit., 267-275, 1968.
54. Absorption edges in insulating crystals. Comm. on Solid State
Physics 1, 16, 1968.
55. The isotope effect in very weak itinerant ferromagnets. Phys.
Letters 27A, 22 1968.
56. Optical absorptions and energy loss in sodium in the Hartree
approximation. (with E-Ni Foo.)
Phys. Rev. 173, 635-644, 1968.
57. Exciton-Magnon interaction in magnetic insulators. (with S. Freeman.)
Phys. Rev. Letters 21, 910-
58. Light scattering spectra of solids (with D.G. Thomas.) Proceed.
Intl. Conf., NY Univ., 1968.
59. Spin flip Raman scattering in cadmium sulfide. (w/D.G. Thomas.)
Proceed.Intl.Conf., NY Univ.,
60. Spin flip Raman Scattering in Cadmium Sulphide (with D. G. Thomas),
Proceedings of the
International Conference on Light Scatterin Spectra osf Solids, 1968.
61. Resonant scattering of polaritons as composite particles. Phys.
Rev. 182, 1969.
62. Optical properties of bound exciton complexes in CdS. (with D.G.
Thomas.) Phys. Rev. 128, 2135,
63. Infrared divergences, X-ray edges, and all that. Comments on
Solid State Physics, II, 40, 1969.
64. Free and bound excitons in elementary excitations in solids.
Plenum Press, 413-436, 1969.
65. Angular momentum and transition-metal superconductivity. Phys.
Rev. 186, 443-451, 1969.
66. Sum rule relating optical properties to the charge distribution.
Phys. Rev. B2, 973-979, 1970.
67. Undulation spectra of GaP associated with the isoelectronic trap
N. (w/H. Kukimoto and P. Dean.)
Phys. Rev. Letters 27, 139-142, 1971.
68. The chemistry of the optical constants of solids in the physics
of opto-electronic materials. Plenum
Publishing 1-16, 1971.
69. An allosteric model of Hemoglobin: I. Kinetics. (with R. Shulman
and S. Ogawa.) J. Mol. Biol. ,
425-443, 1971, 1971.
70. On the systematics of high T in transition metal materials. Physics
55, 1971, 1971.
71. An allosteric model of hemoglobin, II. (with R. Schulman and
S. Ogawa.) Archives Biochm. &
Bioph.. 151, 68-74, 1972.
72. Effective-impurity model of optical absorption edges. (with J.D.
Dow.) J. Non-Crystalline Solids,
8-10, 664-669, 1972.
73. The rate of carbonmonoxide binding to hemoglobin Kansas (with
S. Ogawa and R.G. Schulman.)
Bioch. & Bioph. Res. 49, 1480-84, 1972.
74. Summary, Proceeding of the Intl. Conf on the Physics of Semiconductors.
Warsaw, Poland, 1495-
75. Binding to isoelectronic impurities in semiconductors. (with
A. Baldereschi.) Phys. Rev. Lett. 28,
76. Resonant interaction between localized LO phonons and continuum
states of donors. (with C.H.
Henry.) Phys. Rev. 136, 2233, 1972.
77. Chemically motivated pseudopotential for sodium. (with W.C. Topp.)
Phys. Rev. B7, 1295-1303,
78. Relation between structure, cooperativity and spectra in a model
of hemoglobin action. J. Mol. Biol.
77, 207-222, 1973.
79. The rate of carbon monoxide binding to hemoglobin Kansas. In
Dynamic Aspects of Conformation
Changes in Biological Macromolecules. (with S. Ogawa and R.G. Shulman.)
Dordecht-Holland, 327-331, 1973.
80. The physical basis of cooperativity in the binding of oxygen
by mammalian hemoglobin. Coll.
Properties of Phys. Sys., Nobel 24, 1973.
81. The dynamic Peierls instability. Solid State Comm. 14, 727-729,
82. Electron Transfer Between Biological Molecules by Thermally Activated
Tunneling. PNAS 71,
83. Kinetic Proofreading: a New Mechanism for Reducing Errors in
Biosynthetic Processes Requiring
High Specificity, PNAS 71, 4135-4139 (1974).
84. The measurement of transient circular dichroism: A new kinetic
technique. (with F.A. Ferrone and
S.E. Schnatterly.) Rev. Sci. Instrum. 45, 1392, 1974.
85. Allosteric interpretation of haemoglobin properties. (with R.G.
Shulman and S. Ogawa.) Quart.
Rev. of Biophysics 8, 325, 1975.
86. Magnetic circular dichroism in hemoglobin. (with J.I. Treu.)
J. of Chem. Phys. 63, 613, 1975. 1975
87. Rate of quarternary structure change in hemoglobin measured by
modulated excitation. (with F.A.
Ferrone.) PNAS 73, 4497, 1976.
88. Exchange effects in the Li K edge. (with S.M. Girvin.) Phys.
Rev. Lett. 37, 1091, 1976.
89. Direct experimental evidence for kinetic proofreading in amino
acylation of tRNA. (with T.
Yamane, V. Yue and S.M. Coutts.) PNAS 73, 1164, 1976.
90. Fundamental aspects of electron transfer: Experimental verification
of vibronically coupled electron
tunneling. (with M. Potasek.) PNAS 74, 3817, 1977.
91. Experimental evidence for kinetic proofreading in the aminoacylation
of tRNA by synthetase. (with
T. Yamane.) PNAS 74, 2246, 1977.
92. Photo-induced charge transfer: A critical test of the mechanism
and range of biological electron
transfer processes. Biophys. Journal 18, 311, 1977.
93. Fundamental aspects of electron transfer in biological membranes.
Electrical Phenomena at the
Biological Membrane Level. Elsevier Sci. Publ., Amsterdam, 471, 1977.
94. Experimental test of the vibronically couples tunneling description
of biological electron transfer.
(with M. Potasek.) PNAS 74, 229, 1977.
95. Origin of the genetic code: A testable hypothesis based on tRNA
structure, sequence, and kinetic
proofreading. PNAS 75, 4334, 1978.
96. Non-adiabatic electron tunneling - Implications for bacterial
photosynthesis. Tunneling in Biological
Systems. Chance et al, editors, 417-430, 1979.
97. Solar photovoltaic energy conversion: Principle conclusions of
the American Physical Society
Study G Group , book written by 12-man study committee. H. Ehrerneich,
98. Spin equilibrium and quaternary structure change in hemoglobinA.
Experiments on a quantitative
probe of the stereochemical mechanism of hemoglobin cooperativity.
(with K.C. Cho.)
Biochemistry 18, 5826, 1979.
99. The energy relay: A proofreading scheme based on dynamic cooperativity
and lacking all
characteristic symptoms of kinetic proofreading in DNA replication
and protein synthesis.
PNAS 77, 5248, 1980.
100.. Theory of thermal and photoassisted electron tunneling. (with
M. Redi.) J. Am. Chem. Soc. 72,
6651, 1980. 1980.
101. The fidelity of protein synthesis in Ribosomes - Structure,
function, and genetics. (with T.
Yamane.) Chamblis et al editors, 585-596, 1980.
102. Effect of transfer ribonucleic acid dimer formation on polyphenylalanine
biosynthesis. (with D. L.
Miller and T. Yamane.) Biochemistry 20, 5457, 1981.
103. Investigation of spin tunneling in carbon monoxide recombination
with ß hemoglobin. (w/B.
Gertsman and R. Austin.) Phys. Rev. Letters 47, 1636, 1981.
104. Interaction of elongation fctor Tu with the aminoacyl transfer
ribonucleic acid Dimer Phe-tRNA-
Glu-tRNA. (with T. Yamane and D. Miller.) Biochemistry 20, 449, 1981.
105. Discrimination between D- and L-Tyrosyl transfer ribonucleic
acids in peptide chain elongation.
(with T. Yamane and D. Miller.) Biochemistry 20, 7059, 1981.
106. Hemoglobin-carbon monoxide binding rate. (with M. Redi and B.
Gerstman.) Biophys. J., 35, 471,
107. Neural networks and physical systems with emergent collective
computational abilities. PNAS 79,
2554, 1982. 1982.
108. The mechanism of electron transfer in the electron transport
chain in: Oxidases and Related Redox
Systems. Pergamon Press, King et al eds., 1982.
109. 13C-NMR study of trehalose mobilization in yeast spores. (w/J.
Barton, J. den Hollander & R.
Shulman.) J. Bacteriology 151, 177, 1982.
110. Brain, computer and memory. Engineering and Science XLVI, 2,
111. ‘Unlearning’ has a stabilizing effect in collective
memories. (with D.I. Feinstein and R.G. Palmer.)
Nature 304, 158, 1983. 1983.
112. Collective processing and neural states. in Modeling and Analysis
in Biomedicine, World Sci.
Publ., C. Nicolini ed., p. 369-379 (1983).
113. Global protein structure and local group chemistry in: Modeling
and Analysis in Biomedicine.
World Sci. Publ., Nicolini ed., 1983.
114. CO binding to Heme proteins: A model for barrier height distributions
and slow conformational
changes. (with N. Agmon.) J. Chem. Phys. 79, 2042, 1983.
115. Transient kinetics of chemical reactions with bounded diffusion
perpendicular to the reaction
coordinate: Intramolecular processes with slow conformational changes.
(with N. Agmon.) J.
Chem. Phys., 78, 6947-6959, 1983.
116. Spatial range of electron transfer processes: The complex Cytc-Fe
(CN)6, in Electron Transport
and Oxygen Utilization (with K. Ugurbil.) Elsevier, C. Ho ed., p.
117. Attempted time-resolved measurement of photoassisted charge
transfer of Cytc-Fe(CN)6, in
Electron Transport and Oxygen Utilization. (with R. Austin) Elsevier,
C. Ho, ed., p. 81,
118. Calculation of tunneling matrix elements in rigid systems: The
dithiaspirocyclobutane molecules. (with D. Beratan.) J. Amer. Chem.
Soc. 106, 1584-1594,
119. Neurons with graded response have collective computational properties
like those of two-state
neurons. PNAS 81, 3088, 1984.
120. NMR spectroscopic identification of a hexacyanochromate (III)
binding site on Pseudomonas
Azurin. (w/Cho, Blair, Banerjee, Gray, Pecht & Chan.) Biochemistry
23, 2858, 1984.
121. Models for photohemical electron transfer at fixed distances.
quinone and porphyrin-bibicyclo [2.2.2]-octane-quinone. (w/Joran,
Leland, Geller and
Dervan.) J. Amer. Chem. Soc. 106, 6090, 1984.
122. Failure of the Born-Oppenheimer and Franck-Condon approximations
for long distance electron
transfer rate calculations. (with D. Beratan.) J. Chem. Phys. 81,
123. The effect of in vivo incorporation of a-amino-butyric acid
into E. coli proteins in
Mechanisms of Protein Synthesis. (with T. Yamane and C. Lai.) Springer-Verlag,
ed., 1984. 1984 115 Chemistry
124. “Neural” Computation of decisions in optimization
problems. (with D. Tank.) Biol. Cybern. 52,
125. Limiting forms of the tunneling matrix element in the long distance
bridge mediated electron
transfer problem. (with D. Beratan and J. Onuchic.) Chem. Phys. 83,
126. Spectroscopic studies of protein-heme interactions accompanying
the allosteric transition in
methemoglobins. (w/Henry, Rousseau, Noble & Simon.) Biochemistry
24, 5907-5918, 1985.
127. Picosecond fluorescence studies on intramolecular photochemical
electron transfer in porphyrins
linked to quinones at two different fixed distances. (w/Leland, Joran,
Felker, Zewail &
Dervan.) J. Phys. Chem. 89, 5571-5573, 1985.
128. Simple optimization networks: An A/D converter and a linear
programming circuit. (with D.
Tank.) IEEE Circuits & Sys. CAS-33, 533-541, 1986.
129. Physics, biological computation and complementarity in: The
Lesson of Quantum Theory. Niels
Bohr Cent. Symp. Proc. 295-314, 1986.
130. Collective computation with continuous variables in: Disordered
Systems and Biological
Organization. (with D. Tank.) Springer-Verlag, pp. 155-170, 1986.
131. Computing with neural circuits: A model. (with D. Tank.) Science
233, 625-633, 1986.
132. The logic of Limax learning in: Model Neural Networks and Behavior.
(W/A. Gelperin and D.
Tank.) Plenum Press, Selverston ed., 1985.
133. Collective computation, content-addressable memory and optimization
problems in Complexity
Information Theory. Springer-Verlag, Abu-Mostafa ed., 1986.
134. Analog decoding using neural networks in Neural Networks for
Computing. (with J. Platt.) Conf.
Proc. Snowbird, AIP, 364, 1986.
135. Some aspects of electron-transfer reaction dynamics. (with J.
Onuchic and D. Beratan.) J. Phys.
Chem. 90, 3707-3721, 1986.
136. Neural computation by concentrating information in time. (with
D. Tank.) PNAS 84, 1896-1900,
137. Low temperature biophysics and room temperature biology in Protein
Structure: Molecular and
Electronic Reactivity. Springer-Verlag, Austin et al eds., 1987.
138. Effect of exothermicity on electron transfer rates in photosynthetic
molecular models. (w/Joran,
Leland, Felker, Zewail & Dervan.) Nature 6122, 508-511, 1987.
139. Learning algorithms and probability distributions in feed-forward
and feed-back networks. PNAS
84, 8429-8433, 1987.
140. Collective computation in neuron-like circuits. (with D. Tank.)
Sci. Am. 255, 104-114, 1987.
141. Concentrating information in time: Analog neural networks with
applications to speech recognition
problems. (with D. Tank.) 1st. IEEE Intl. Conf. Neural Nets. IV455,
142. Networks, computations, logic and noise. 1st. IEEE Intl. Conf.
Neural Nets. IV109, 1987.
143. Large automatic learning, rule extraction, and generalization.
(w/Denker, Schwartz et al.) Complex Systems 1, 877-922, 1987.
144. On the effectiveness of neural networks in computation. Symposium,
Parallel models of
intelligence: How can slow components think so fast? AAAI 135-138,
March 22-24, 1988
145. Artificial neural networks. IEEE Circuits & Devices 4, 3-10,
146. A molecular shift register based on electron transfer. (with
J. Onuchic and D. Beratan.) Science
241, 817-820, 1988.
147. Neural computations and neural systems, Computer simulation
in brain science. Cambridge
Univ. Press, Cotterill ed., 1988.
148. Neural architecture and biophysics for sequence recognition
in Neural models of plasticity. (with
D. Tank.) Academic Press, 363-377, 1989.
149. An electronic shift register memory based on molecular electron
transfer reactions. (with J. Onuchic and D. Beratan.) J. Phys. Chem.
93, 6350-6356, 1989.
150. Information storage at the molecular level: The design of a
molecular shift register memory. (with
D. Beratan and J. Onuchic.) J.Brit. Interplanetary Soc. 42, 468-473,
151. Modeling the olfactory bulb and its neural oscillatory processings.
(with Z. Li.) Biological
Cybernetics 61, 379-392, 1989.
152. The effectiveness of neural computing, in Information Processing
89. Elsevier Science, Ritter ed.,
153. Design of a true molecular electronic device: The electron transfer
shift register memory, in
Molecular Electronics. (w/ D. Beratan and J. Onuchic.) Plenum Publ.,
Hong ed., 353-360,
154. The effectiveness of analog ‘Neural Network’ hardware.
Network I, 27-40, 1990.
155. Dynamics and neural network computation. Proceedings of 1990
Sanibel Symposia, Florida.
Quantum Chem. Symp. 24, 633-644, 1990.
156. A protein structure predictor based on an energy model with
learned parameters. (w/Bryngelson
and Southard.) Tetrahedron Comp. 3, vol. 3, 129-141, 1991.
157. Connected-digit speaker-dependent speech recognition using a
neural network with time-delayed
connections. (with Unnikrishnan and Tank.) IEEE Trans. Sig. Proc.,
39, 698-713, 1991.
158. Olfactory computation and object perception. PNAS 88, 6462-6466,
159. Physics, computation and biology, Evolutionary Trends in the
Physical Sciences, Springer
Proceedings in Physics., Vol. 57. Springer-Verlag, Suzuki & Kubo
160. Dynamic properties of neural networks with learning and feedback.
(with Dawei Dong.) Network
3, 267-283, 1992.
161 Computation et systemes neuronax. Courier del Ecole Norm. Super.
162. Speaker-independent digit recognition using a neural network
with time-delayed connections. (with
K.P. Unnikrishnan and D.W. Tank.) Neural Computation 4, 108-119, 1992.
163. Neurons, Dynamics, and Computation. Physics Today, 40-46, February
164. Decomposition of a mixture of signals in a model of the olfactory
bulb. (with O. Hendin and D.
Horn.) PNAS, 91, 5942-5946, 1994.
165. Physics, computation, and why biology looks so different. J.Theor.Biol.
171, 53-60, 1994.
166. Biological information processing and molecular nanocomputing
in From Neural Networks and
Biomolecular Engineering to Bioelectronics. Plenum Press, Nicolini
ed., N.Y., 1995.
167. Pattern recognition computation using action potential timing
for stimulus representation. Nature,
376, pp. 33-36, July 1995.
168. Earthquake cycles and neural reverberations: Collective oscillations
in systems with pulse-coupled
threshold elements. (with Andreas Herz.) Phys.Rev. Lett. 75, 6, 1222,
169. Rapid local synchronization of action potentials: Toward computation
with coupled integrate-and-
fire neurons (with A. Herz) PNAS 92, pp. 6655-6662, 1995.
170. Transforming neural computations and representing time, PNAS
93, 15440-15444, 1996.
171. Entropy-Enthalpy compensation: Perturbation and relaxation thermodynamic
systems (with H.
Qian) J. Chem. Phys. 105, 9292-9298.
172. Dynamics, Computation, and Neurobiology in Critical Problems
in Physics, Eds. Fitch, V.L,
173. Computing with action potentials (with C. D. Brody and S. Roweis)
Adv. in Neural Inf. Processing
10, 166-172 (1998)
174. Minimax and Hamiltonian dynamics of excitatory-inhibitory networks
(with H. S. Seung, T. J.
Richardson, and J. C. Lagarias, Adv. in Neural Inf. Processing 10,
175. All-or-none potentiation at CA3-CA1 synapses (with C. C. H.
Petersen, R. C. Malenka, and R. A.
Nicoll) PNAS 95. 4732-4737 (1998).
176. Brain, neural networks, and computation, Rev. Mod. Phys. 71,
Centenary 1999, S431-S437.
177. Odor space and olfactory processing: Collective algorithms and
PNAS 1999 96: 12506-12511.
178. From molecular to modular cell biology (with L. H. Hartwell,
S. Leibler, and A. W. Murray),
Nature 402 (supp) 1999 C47-C52.
179 Struttura degli odori e sistemi olfattivi, Enciclopedia Italiana,
Vol 3, 495-502 (1999).
180. On theorists and data in computational neuroscience, Nature
Neuroscience 3 (supplement)
November 2000. 1204.
181. What is a moment? "Cortical" sensory integration over
a brief interval (with C. D. Brody) PNAS
97, 13919-13924 (2000).
182. What is a moment? Transient synchrony as a collective mechanism
integration (with C. D. Brody) PNAS 98, 1282-1287 (2001).
183. Olfaction and color vision: More is simpler, in More is Different,
N. P. Ong and
R. N Bhatt, eds, Princeton University Press, Princeton NJ, 269-284
184. Electronic and Computational Olfaction, ( with A. Gelperin)
(2002) Electronic and
Computational Olfaction. In P. Given, P. and Paredes, D., eds. Chemistry
of Taste: Mechanisms, Behaviors, and Mimics, American Chemical Society
(Symposium Series 825), Washington, DC.
185. Form Follows Function (an editorial). (2002) Physics Today,
186. Simple Networks for Spike-Timing-Based Computation, with Application
to Olfactory Processing
(with C. D. Brody) (2003) Neuron 37, 843-852.
187. Separating objects and 'neural' computation (with C. D. Brody)
(2003) Compte Rendus Biologies
188. Vibrissa Resonance as a Mechanism for Tactile Encoding (with
M. A. Neimark, M. L. Andermann,
and C. I. Moore ) (2003) J. Neuroscience 23, 6499-6509.
189. Learning rules
and network repair in spike-timing based computation networks
D. Brody) (2004) Proc. Natl. Acad. Sci. USA 101, 337-342.