Conference Paper (2)
2015
Conference Paper
Spin orientation-dependent antiferromagnetic proximity effect. In: IEEE International Magnetics Conference (Intermag), p. FC-07. IEEE International Magnetics Conference (Intermag), Beijing, PEOPLES R CHINA, May 11, 2015 - May 15, 2015. (2015)
Thesis - PhD (9)
2015
Thesis - PhD
Synthesis, crystal structure and thermoelectric properties of cationic clathrates-I and rare-earth-rhenium borides. Dissertation, 128 pp., Technische Universität, Dresden (2015)
Thesis - PhD
SrCo2P2 und Lu(Fe1-xCox)4Ge2: zwei Systeme mit ungewöhnlichem itineranten Magnetismus. Dissertation, XI, 115 pp., Technische Universität, Dresden (2015)
Thesis - PhD
Investigation of correlated electron systems under uni-axial strain. Dissertation, XII, 146 pp., University of St Andrews, St Andrews (2015)
Thesis - PhD
Magnetism in layered Nickelates and Cobaltates. Dissertation, IV, 197 pp., Technische Universität, Dresden (2015)
Thesis - PhD
Neuartige RE T2(Sn,In)-Systeme: Außergewöhnliche magnetische und elektronische Eigenschaften. Dissertation, X, 90, XX pp., Technische Universität, Dresden (2015)
Thesis - PhD
Investigations on the parent compounds of Fe-chalcogenide superconductors. Dissertation, Technische Universität, Dresden (2015)
Thesis - PhD
Thermal Transport in Strongly Correlated Rare-Earth Intermetallic Compounds. Dissertation, Technische Universität, Dresden (2015)
Thesis - PhD
Topological surface states of cubic topological insulators: HgTe and Heusler compounds. Dissertation, Technische Universität, Dresden (2015)
Thesis - PhD
Uniaxial strain and high magnetic field investigation on materials with novel order parameters. Dissertation, University of St Andrews, St Andrews (2015)
Thesis - Habilitation (1)
2015
Thesis - Habilitation
Chemical Bonding Analysis of Solids in Position Space. Habilitation, Technische Universität, Dresden (2015)
Thesis - Bachelor (2)
2015
Thesis - Bachelor
Quaternäre Legierungen MnFePtAl, MnFePtGa, MnFePdAl, MnFePdGa: Synthese, Phasenanalyse, mirkrostrukturelle Charakterisierung und magnetische Eigenschaften. Bachelor, 146 pp., Technische Universität, Dresden (2015)
Thesis - Bachelor
MnAl-basierte Materialien: Synthese, Phasenanalyse und magnetische Eigenschaften. Bachelor, 86 pp., Technische Universität, Dresden (2015)