Investigation of static, dynamic and temperature-dependent properties of nanoparticle ensembles for novel magnetoresistive sensor devices by means of Monte Carlo and stochastic spin dynamics simulations
L. Teich, C. Schröder, C. Müller, A.V. Patel, J. Meyer, A. Hütten, in: 2014.
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Konferenzbeitrag
| Englisch
Autor*in
Teich, Lisa;
Schröder, Christian ;
Müller, Christiane;
Patel, Anant V. ;
Meyer, Judith;
Hütten, Andreas
Erscheinungsjahr
Konferenz
International Conference on Highly Frustrated Magnetism
Konferenzort
Cambridge
FH-PUB-ID
Zitieren
Teich, Lisa ; Schröder, Christian ; Müller, Christiane ; Patel, Anant V. ; Meyer, Judith ; Hütten, Andreas: Investigation of static, dynamic and temperature-dependent properties of nanoparticle ensembles for novel magnetoresistive sensor devices by means of Monte Carlo and stochastic spin dynamics simulations. In: , 2014
Teich L, Schröder C, Müller C, Patel AV, Meyer J, Hütten A. Investigation of static, dynamic and temperature-dependent properties of nanoparticle ensembles for novel magnetoresistive sensor devices by means of Monte Carlo and stochastic spin dynamics simulations. In: ; 2014.
Teich, L., Schröder, C., Müller, C., Patel, A. V., Meyer, J., & Hütten, A. (2014). Investigation of static, dynamic and temperature-dependent properties of nanoparticle ensembles for novel magnetoresistive sensor devices by means of Monte Carlo and stochastic spin dynamics simulations. Presented at the International Conference on Highly Frustrated Magnetism, Cambridge.
@inproceedings{Teich_Schröder_Müller_Patel_Meyer_Hütten_2014, title={Investigation of static, dynamic and temperature-dependent properties of nanoparticle ensembles for novel magnetoresistive sensor devices by means of Monte Carlo and stochastic spin dynamics simulations}, author={Teich, Lisa and Schröder, Christian and Müller, Christiane and Patel, Anant V. and Meyer, Judith and Hütten, Andreas}, year={2014} }
Teich, Lisa, Christian Schröder, Christiane Müller, Anant V. Patel, Judith Meyer, and Andreas Hütten. “Investigation of Static, Dynamic and Temperature-Dependent Properties of Nanoparticle Ensembles for Novel Magnetoresistive Sensor Devices by Means of Monte Carlo and Stochastic Spin Dynamics Simulations,” 2014.
L. Teich, C. Schröder, C. Müller, A. V. Patel, J. Meyer, and A. Hütten, “Investigation of static, dynamic and temperature-dependent properties of nanoparticle ensembles for novel magnetoresistive sensor devices by means of Monte Carlo and stochastic spin dynamics simulations,” presented at the International Conference on Highly Frustrated Magnetism, Cambridge, 2014.
Teich, Lisa, et al. Investigation of Static, Dynamic and Temperature-Dependent Properties of Nanoparticle Ensembles for Novel Magnetoresistive Sensor Devices by Means of Monte Carlo and Stochastic Spin Dynamics Simulations. 2014.