Faculty Publications

As of August 2017, this database is no longer being updated. For the most current publications from the faculty, students, and staff of Touro University, please check our institutional repository, Touro Scholar, and email any questions or publication submissions to touro.scholar@touro.edu.

Total number of publications: 7,082

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  • Benjaminson, M. A. (1987). The Dictyostelium life cycle: A sensitive gauge of cellular and organismic response to gravity. Space Life Sciences symposium: Three Decades of Life Sciences Research in Space (pp. 21-26). Washington, DC: NASA.

  • Benjaminson, M. A. (1989). Gravity response and tropisms in Dictyostelium discoideum. FASEB Conference on Biochemical and Biophysical Mechanisms of Gravity response, Copper Mountain, Colorado.

  • Benjaminson, M. A. (1996). Time, gravity, energy and biochronology: A theory. Gravitational and Space Biology Bulletin, 10(1), 8. This material can be found here.

  • Benjaminson, M. A., Gilchriest, J. A., & Lehrer, S. (2013). Development in altered gravity influences height in Dictyostelium. Gravitation and Space Research, 1(1), 51-58. This material can be found here.

  • Egan, W. G., Fischbein, W. L., Hilgeman, T., & Smith, L. L. (1978). Martian atmosphere modeling between 0.4 and 3.5 microns: Comparison of theory and experiment. In A. V. Jones (Ed.), Proceedings of the Symposium on Planetary Atmospheres, 19th (pp. 57-60). Ottawa, Canada: Royal Society of Canada.

  • Egan, W. G., Fischbein, W. L., Hilgeman, T., & Smith, L. L. (1977). High resolution Martian atmosphere modeling between 2800 and 5600 Cm-1 [Abstract]. Bulletin of the American Astronomical Society, 9(4) 514. This material can be found here.

  • Egan, W. G., Fischbein, W. L., Smith, L. L., & Hilgeman, T. (1980). High resolution Martian amosphere modeling. Icarus, 41(1), 166-174. doi:10.1016/0019-1035(80)90170-0

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  • Fardon, R., Nelson, A.E., & Weiner, N. (2006) Supersymmetric theories of neutrino dark energy. Journal of High Energy Physics, 03.

  • Fardon, R., Nelson, A.E., Weiner, N. (2004). Dark energy from mass varying neutrinos. Journal of Cosmology and Astroparticle Physics, 10(10). This material can be found here.

  • Fischbein, W. L. (1972). Anisotropy in cosmic ray electrons. Bulletin of the American Physical Society, 17, 479.

  • Fischbein, W. L. (1978). Environmental interaction implications for large space systems. In Spacecraft charging technology, 1978: A conference. Washington: National Aeronautics and Space Administration, Scientific and Technical Information Office.

  • Fischbein, W. L., Debiak, T., Rossi, M., Stauber, M., & Suh, P. (1979, December). Predictions of induced background radiations at gamma/X-ray experiment envelopes in NASA spacecraft.  IEEE Transactions on Nuclear Science, 26(6), 5156-5161. doi: 10.1109/TNS.1979.4330289

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  • Gurvitch, M. A., Polyakov, A., Luryi, S., & Shabalov, A. (2012). U.S. Patent No. 8,158,941. Washington, DC: U.S. Patent and Trademark Office.

  • Gurvitch, M., Luryi, S., Polyakov, A., & Shabalov, A. (2008). Non-hysteretic branches inside the hysteresis loop in VO2 films for focal plane array imaging bolometers. ArXiv. Retrieved from http://arxiv.org/abs/0805.3566

  • Gurvitch, M., Luryi, S., Polyakov, A., & Shabalov, A. (2009). Nonhysteretic behavior inside the hysteresis loop of VO2 and its possible application in infrared imaging. Journal of Applied Physics, 106(10), 104504.  doi.org/10.1063/1.3243286

  • Gurvitch, M., Luryi, S., Polyakov, A., & Shabalov, A. (2010). Nonhysteretic phenomena in the metal–semiconductor phase-transition loop of \hbox {VO}_{2} films for bolometric sensor applications. IEEE Transactions on Nanotechnology, 9(5), 647-652. doi:10.1109/TNANO.2010.2047867

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  • Gurvitch, M., Luryi, S., Polyakov, A., & Shabalov, A. (2010). Treating the Case of Incurable Hysteresis in VO2. In S. Luryi, J. Xu, & A. Zaslavsky (Eds.), Future trends in microelectronics: From nanophonics to sensors to energy (pp. 395-409). Oxford, England: Wiley-Blackwell.

  • Gurvitch, M., Luryi, S., Polyakov, A., Shabalov, A., Dudley, M., Wang, G., & Ge, S. (2007). VO2 films with strong semiconductor to metal phase transition prepared by the precursor oxidation process.  Journal of Applied Physics, 102(3), 033504. doi:10.1063/1.2764245

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  • Gutierrez, W. R. (1980, December). Path integral approach to the large-N expansion of the two-dimensional U(N) QCD. Nuclear Physics B, 176(1), 185-192. doi:10.1016/0550-3213(80)90070-X This can be found here.

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  • Gutierrez, W. R. (1983, October). Nonperturbative treatment of reduced model with fermions. Physical Review D, 28(8), 2104-2106. doi:10.1103/PhysRevD.28.2104 This can be found here.

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  • Gutierrez, W. R. (1984, December). Singlet-fields formulation and the large-N expansion of the quark sector of QCD. Physical Review D, 30(12), 2622-2627. doi:10.1103/PhysRevD.30.2622 This can be found here.

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  • Gutierrez, W. R. (2002, October). Volume integration of fractal distribution networks. Physical Review E, 66(4). doi:10.1103/PhysRevE.66.041906 This can be found here.

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  • Gutierrez, W. R. (2007). The optimal form of distribution networks applied to the kidney and lung. Journal of Biological Systems, 15(4), 419-434.

  • Gutierrez, W. R., & Saez, L. F. (1984, May). Composite gluons and scalar fields. Journal of Mathematical Physics, 25(5), 1528-1530. doi:10.1063/1.526326

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  • Kaganovskiy, L. (2011). Adaptive panel representation for oblique collision of two vortex rings. International Journal of Non-Linear Mechanics, 46(1), 9-13.

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