Source: https://www.seas.gwu.edu/edward-della-torre
Timestamp: 2019-04-22 02:29:13+00:00

Document:
The Institute for Magnetics Research has several projects analyzing hysteresis and loss mechanisms. Reducing losses is one of the limiting factors in making a practical magnetic refrigerator or air conditioner. Such conditioners are more efficient, quieter, and less polluting than conventional ones. Reducing magnetostriction is another endeavor we are working on.
M. Ghahremani, H. ElBidweihy, L. H. Bennett, M. Zou, and F. Johnson, “Implicit measurement of the latent heat in a magnetocaloric NiMnIn Heusler alloy,”J. Appl. Phys., 113, 17A943, 2013.
V. Provenzano, E. Della Torre, and Bennett, "Study of Magnetizing Processes in Ni50Mn35In15 Heusler Alloy," IEEE Trans. Magn, 9.9, 2013.
V. Provenzano, E. Della Torre, and L. H. Bennett, "Magnetization model for a Heusler alloy," J. Appl. Phys., 113, 17A915, 2013.
H. M. Seyoum, M. Ghahremani, H. ElBidweihy, L. H.Bennett, E. Della Torre, F. Johnson, and M. Zhuo, “Metastability in the Magnetic Structure of Ni51Mn33.4In15.6 Heusler alloy,” IEEE Magn. Lett., 4, 6000204, 2013.
M. Ovichi, H. ElBidweihy, M. Ghahremani, E. Della Torre, L. H. Bennett, F. Johnson, and M. Zou, “Selfsimilar field dependent curves for a Heusler alloy,” Physica B., 435, 71, 2014.
M. Ovichi, M. Ghahremani, E. Della Torre, L. H. Bennett, F Johnson, and V. Srivastava, “Ferritoferromagnetic and ferrotoparamagnetic transitions in Ni48Co2Mn35In13Ga2 Heusler alloy,” J. Appl. Phys. 115, 17A906, 2014.
V. Provenzano, Edward Della Torre , Lawrence H.Bennett, Hatem ElBidweihy, “Hysteresis of magnetostructural transitions: Repeatable and non-repeatable processes,” Physica B 435, 138-143, 2014.
M. Ghahremani, L. H. Bennett, E. Della Torre, M. Ovichi, and A. Nwokoye, “Cooling factor for magnetic refrigeration systems,” Cogent Physics, 1, 979604, 2014.
E. Della Torre, H. ElBidweihy, V. Provenzano , L. H.Bennett , “Modeling the fractional magnetic states of magnetostructural transformations,” Physica B 435, 50-53, 2014.
M. Ovichi, H. ElBidweihy, M. Ghahremani, E. Della Torre, L. H. Bennett, F. Johnson, and M. Zou, “Selfsimilar Field Dependent Curves for a Heusler Alloy,” Physica B: Condensed Matter, 435, 7175, 2014.
S. Gu, W. He, M. Zhang, T. Zhuang, Y. Jin, H. El Bidweihy, Y. Mao, J. Dickerson, M. Wagner, E. Della Torre, and L. H. Bennett, “Physical Justification for Negative Remanent Magnetization in Homogeneous Nanoparticles,” Nature Sci. Repts., 4, Article 6267, 2014.
E. Della Torre, H. Elbidweihy, “Magnetic Modeling, Hysteresis,” Wiley Encycl. Elect. and Electronic Engg., 2014.
E. Della Torre, L. H. Bennett, “Negative remanent magnetization,” J. Appl. Phys., 115, 17A720, 2014.
V. Provenzano, E. Della Torre, L. H. Bennett, and H. ElBidweihy, “Hysteresis of Magnetostructural Transitions: Repeatable and NonRepeatable Processes,” Physica B: Condensed Matter, 435, 138143, 2014.
K. Khattak, A. Aslani, C. Nwokoye, A. Siddique, L. H. Bennett, E. Della Torre, “Magnetocaloric properties of metallic nanostructures,” Cogent Engg. 2, 2015.
Chidubem A. Nwokoye, Edward Della Torre, Lawrence H. Bennett, Abid Siddique, and Frank A. Narducci, “A New Technique for Measuring the Chemical Potential of Magnons Confined in Nanostructures,” Intl. J Magn. Electromagnetism, 1, 1-4, 2015.
C. Nwokoye, L. H. Bennett, E. Della Torre, A. Siddique, F. Narducci, M. Ghahremani, K. Khattak, “Low Temperature Magneto-Optical Kerr Effect Experimental System with a Cryogen-Free Sample Environment” IntL. J. Nanopartcls Nanotech., 1, 1-6, 2015.
E. Della Torre, A. Jamali, H. ElBidweihy and L. H. Bennett, “Vector properties of magnetostriction,” J. Appl. Phys., 117, 17D141,2015.
M. Ghahremani, A. Aslani, L. H. Bennett and E. Della Torre, “Magnetic states stabilization in Ni51Mn33.4In15.6 Heusler alloy,” Cogent Physics 2, 1109019, 2015.
A. Aslani, M. Ghahremani, M. Zhang, L. H. Bennett, E. Della Torre, "Enhanced Magnetic Properties of Yttrium-Iron Nanoparticles," AIP Advances 7, 056423, 2017.

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