Dr Christian Notthoff
Department | Materials Physics Nuclear Physics & Accelerator Applications |
---|---|
Research group | Accelerator development group |
Qualifications | PhD |
Office phone | (02) 612 52080 |
Lab phone | (02) 612 57261 |
Mobile phone | 0481 356 137 |
Office | Nuclear Physics 1 02 |
Publications
Journal article
Kluth P, Notthoff C
Isotropic and Anisotropic Flux Pinning Induced by Heavy-Ion Irradiation
IEEE Transactions on Applied Superconductivity 32, 4(2022)
Isotropic and Anisotropic Flux Pinning Induced by Heavy-Ion Irradiation
IEEE Transactions on Applied Superconductivity 32, 4(2022)
Notthoff C, Kluth P
The Role of Stacking Faults in the Enhancement of the a-b Plane Peak in Silver Ion-Irradiated Commercial MOD REBCO Wires
IEEE Transactions on Applied Superconductivity 32, 4(2022)
The Role of Stacking Faults in the Enhancement of the a-b Plane Peak in Silver Ion-Irradiated Commercial MOD REBCO Wires
IEEE Transactions on Applied Superconductivity 32, 4(2022)
Bolzan C, Manzo D, Notthoff C, Kluth P, Giulian R
Stoichiometry-dependent porosity by ion irradiation: In(1-x)Al(x)Sb films
Journal of Physics and Chemistry of Solids 148(2021) 1-10
Stoichiometry-dependent porosity by ion irradiation: In(1-x)Al(x)Sb films
Journal of Physics and Chemistry of Solids 148(2021) 1-10
Dutt S, Dutt S, Apel P, Mota-Santiago P, Lizunov N, Kluth P, Notthoff C, Wen Q, Trautmann C, Mota-Santiago P, Mota Santiago P, Kirby N, Kluth P
Shape of nanopores in track-etched polycarbonate membranes
Journal of Membrane Science 638(2021)
Shape of nanopores in track-etched polycarbonate membranes
Journal of Membrane Science 638(2021)
Kiy A, Kiy A, Notthoff C, Dutt S, Dutt S, Grigg M, Hadley A, Mota-Santiago P, Mota-Santiago P, Kirby N, Trautmann C, Toimil-Molares M, Kluth P
Ion track etching of polycarbonate membranes monitored by in situ small angle X-ray scattering
Physical Chemistry Chemical Physics 23, 26(2021) 14231-14241
Ion track etching of polycarbonate membranes monitored by in situ small angle X-ray scattering
Physical Chemistry Chemical Physics 23, 26(2021) 14231-14241
Leow C, Kreider P, Notthoff C, Kluth P, Tricoli A, Compston P
A graphene film interlayer for enhanced electrical conductivity in a carbon-fibre/PEEK composite
Functional Composite Materials 2, 1(2021) 1-11
A graphene film interlayer for enhanced electrical conductivity in a carbon-fibre/PEEK composite
Functional Composite Materials 2, 1(2021) 1-11
Pieczarka M, Notthoff C, Kluth P, Truscott A, Estrecho E, Ostrovskaya E
Influence of direct deposition of dielectric materials on the optical response of monolayer WS2
Applied Physics Letters 119, 13(2021)
Influence of direct deposition of dielectric materials on the optical response of monolayer WS
Applied Physics Letters 119, 13(2021)
Hadley A, Notthoff C, Mota Santiago P, Dutt S, Mudie S, Carrillo-Solano M, Toimil-Molares M, Trautmann C, Kluth P
Analysis of nanometer-sized aligned conical pores using small-angle x-ray scattering
Physical Review Materials 4, 5(2020) 1-13
Analysis of nanometer-sized aligned conical pores using small-angle x-ray scattering
Physical Review Materials 4, 5(2020) 1-13
Hadley A, Notthoff C, Mota Santiago P, Kirby N, Kluth P
Grazing-incidence transmission SAXS investigation of conical etched ion tracks in SiO2
Nuclear Instruments and Methods in Physics Research: Section B 465(2020) 62-66
Grazing-incidence transmission SAXS investigation of conical etched ion tracks in SiO2
Nuclear Instruments and Methods in Physics Research: Section B 465(2020) 62-66
Mota Santiago P, Kremer F, Rizza G, Dufour C, Khomenkov V, Notthoff C, Hadley A, Kluth P
Ion shaping of single-layer Au nanoparticles in amorphous silicon dioxide, in silicon nitride, and at their interface
Physical Review Materials 4, 9(2020) 1-16
Ion shaping of single-layer Au nanoparticles in amorphous silicon dioxide, in silicon nitride, and at their interface
Physical Review Materials 4, 9(2020) 1-16
Notthoff C, Jordan S, Hadley A, Mota Santiago P, Elliman R, Lei W, Kirby N, Kluth P
Swift heavy ion irradiation of GaSb: From ion tracks to nanoporous networks
Physical Review Materials 4, 4(2020) 1-11
Swift heavy ion irradiation of GaSb: From ion tracks to nanoporous networks
Physical Review Materials 4, 4(2020) 1-11
Hadley A, Notthoff C, Mota Santiago P, Hossain U, Kirby N, Toimil-Molares M, Trautmann C, Kluth P
"Etched ion tracks in amorphous SiO2 characterized by small angle x-ray scattering: influence of ion energy andetching conditions"
Nanotechnology 30, 27(2019)
"Etched ion tracks in amorphous SiO2 characterized by small angle x-ray scattering: influence of ion energy andetching conditions"
Nanotechnology 30, 27(2019)
Mackert V, Gebauer J, Notthoff C, Winterer M
Zinc stannate by reactive laser sintering
Applied Surface Science 457(2018) 1174-1180
Zinc stannate by reactive laser sintering
Applied Surface Science 457(2018) 1174-1180
Notthoff C, Mota Santiago P, Hadley A, Hossain U, Jordan S, Glover C, Mudie S, Kluth P
Structural properties of nano-porous GaSb prepared by swift heavy-ion irradiation
Nuclear Instruments and Methods in Physics Research: Section B 435(2018) 126-132
Structural properties of nano-porous GaSb prepared by swift heavy-ion irradiation
Nuclear Instruments and Methods in Physics Research: Section B 435(2018) 126-132
Hadley A, Notthoff C, Mota Santiago P, Hossain U, Mudie S, Toimil-Molares M, Trautmann C, Kluth P
Conical etched ion tracks in SiO2 characterised by small angle X-ray scattering
Nuclear Instruments and Methods in Physics Research: Section B 435(2017) 133-136
Conical etched ion tracks in SiO2 characterised by small angle X-ray scattering
Nuclear Instruments and Methods in Physics Research: Section B 435(2017) 133-136
(15 publications)
Updated: 24 May 2022/ Responsible Officer: Director, RSPhys/ Page Contact: Physics Webmaster