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Publications 2015

Host Sensitized Luminescence and Time-Resolved Spectroscopy of YVO4: Ho3+ Nanocrystals

Manoj Kumar Mahata, Tristan Koppe, Hans Hofsäss, Kaushal Kumar, Ulrich Vetter, Physics Procedia 76 (2015) 125.

Electrical conduction of ion tracks in tetrahedral amorphous carbon: Temperature, field and doping dependence and comparison with matrix data

J Krauser, H-G Gehrke, H Hofsäss,  J Amani, C Trautmann, and A Weidinger, New J. Phys. 17 (2015) 123009.

Electronic structure modification of ion implanted graphene: the spectroscopic signatures of p- and n-type doping

D.M. Kepaptsoglou, T.P. Hardcastle, C.R. Seabourne, U. Bangert, R. Zan, J. Amani, H. Hofsäss, R.J. Nicholls, R. Brydson, A.J. Scott and Q.M. Ramasse, ACS Nano (2015) DOI 10.1021/acsnano.5b05305

Mössbauer Spectroscopy study of Surfactant Sputtering induced Fe Silicide formation on a Si surface

C. Beckmann, K. Zhang, H. Hofsäss, C. Brüsewitz, U. Vetter and K. Bharuth-Ram, Appl. Surf. Sci. 357 A (2015) 493.

Instability of ferromagnetic nanoclusters in Fe implanted amorphous SiO2

K. Bharuth-Ram, T. B. Doyle, K. Zhang, H. Masenda and H. Hofsäss, Physics Procedia, ISM 2015 proceedings, accepted.

Analysis of immittance spectra: Finding unambiguous electrical equivalent circuits to represent the underlying physics

Julian Alexander Amani, Tristan Koppe, Hans Hofsäss, and Ulrich Vetter, Physical Review Aplied 4 (2015) 044007.

Incorporation of Zn2+ ions into BaTiO3 :Er3+ /Yb3+ nanophosphor: an effective way to enhance upconversion, defect luminescence and temperature sensing

M. K. Mahata, T. Koppe, T. Mondal, C. Brüsewitz, K. Kumar, V. K. Rai, H. Hofsäss and Ulrich Vetter, Phys. Chem. Chem. Phys. 17 (2015) 20741-20753

Doping of Graphene by Low-Energy Ion Beam Implantation: Structural, Electronic and Transport Properties

Philip Willke, Julian A. Amani, Anna Sinterhauf, Sangeeta Thakur , Thomas Kotzott, Steffen Weikert, Kalobaran Maiti, Hans Hofsäss, Martin Wenderoth, Nano Letters 15 (2015) 5110.

Tests of the Modified Sigmund Model of Ion Sputtering using Monte Carlo Simulations

H. Hofsäss, R. M. Bradley, J. Appl. Phys. 117 (2015) 174310

Model for roughening and ripple instability due to ion-induced mass redistribution [Addendum to H. Hofsäss, Appl. Phys. A 114 (2014) 401, “Surface instability and pattern formation by ion-induced erosion and mass redistribution”] 

H. Hofsäss, Appl. Phys. A 119 (2015) 687

Determination of gradient elastic tensors: stress and strain dependencies of electric field gradients in cubic and hexagonal systems

C. Brüsewitz, U. Vetter, H.  Hofsäss, J. Phys.: Cond. Matter 27 (2015) 055401.



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