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publication_list [01Jan19, 14:39]
jwu
publication_list [15May20, 06:34] (current)
ganeva [2020]
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 See also [[Posters and Talks]]. See also [[Posters and Talks]].
 +
 +=== 2020 ===
 +
 +A. Qdemat, E. Kentzinger, J. Buitenhuis, U. Rücker, M. Ganeva, T. Brückel\\
 +**Self assembled monolayer of silica nanoparticles with improved order by drop casting**\\
 +[[https://​doi.org/​10.1039/​D0RA00936A|RSC Adv., 2020, 10, 18339-18347]] ​
 +
 +J. Witte, P. Krause, T. Kyrey, A. M. Dahl, J. Lutzki, B. V. K. J. Schmidt, M. Ganeva, A. Koutsioubas,​ O. Holderer, S. Wellert \\
 +**Grazing Incidence Neutron Spin Echo Study of Poly(N-isopropylacrylamide) Brushes**\\
 +[[https://​doi.org/​10.1021/​acs.macromol.9b01247|Macromolecules 2020, 53, 5, 1819-1830]]
 +
 +F. Bornemann, Y. Y. Li, J. Wuttke:\\
 +**Multiple Bragg reflection by a thick mosaic crystal. II. Simplified transport equation solved on a grid.**\\
 +[[https://​doi.org/​10.1107/​S2053273320002065|Acta Cryst. A 76, 376-389 (2020)]]
 +
 +G. Pospelov, W. Van Herck, J. Burle, J. M. Carmona Loiza, C. Durniak, J. M. Fisher, M. Ganeva, D. Yurov, J. Wuttke:\\
 +**BornAgain:​ software for simulating and fitting grazing-incidence small-angle scattering.**\\
 +[[https://​doi.org/​10.1107/​S1600576719016789|J. Appl. Cryst. 53, 262-276 (2020)]]
 +
 +=== 2019 ===
  
 T. Chatterji, M. Zamponi, J. Wuttke:\\ T. Chatterji, M. Zamponi, J. Wuttke:\\
 **Hyperfine interaction in cobalt by high-resolution neutron spectroscopy**\\ **Hyperfine interaction in cobalt by high-resolution neutron spectroscopy**\\
-J. Phys. Condens. Matter (in press)+[[https://​doi.org/​10.1088/​1361-648X/​aaeead|J. Phys. Condens. Matter ​31, 025801 ​(2019)]] 
 + 
 +A. Schober, A. Wendl, F. X. Haslbeck, J. K. Jochum, L. Spitz, C. Franz\\ 
 +**The software package MIEZEPY for the reduction of MIEZE data**\\ 
 +[[https://​doi.org/​10.1088/​2399-6528/​ab497d|J. Phys. Commun. 3, 103001 (2019)]] 
 + 
 +J. Wuttke:\\ 
 +**Quasielastic Scattering**\\ 
 +{{::​l19iff01.pdf|Chapter D05}} in: M. Angst, T. Brückel, S. Förster, K. Friese, R. Zorn (eds):\\ 
 +//​Scattering! Soft, Functional and Quantum Materials.//​ 
 +50th IFF Spring School 2019.\\ 
 +[[https://​juser.fz-juelich.de/​record/​861168/​files/​Schluesseltech_190.pdf|Schriften des Forschungszentrums Jülich, Reihe Schlüsseltechnologien,​ Band 190 
 +(2019)]]\\
  
 === 2018 === === 2018 ===
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 T. Kyrey, M. Ganeva, K. Gawlitza, J. Witte, R. von Klitzing, O. Soltwedel, Zh. Di, S. Wellert, O. Holderer:\\ T. Kyrey, M. Ganeva, K. Gawlitza, J. Witte, R. von Klitzing, O. Soltwedel, Zh. Di, S. Wellert, O. Holderer:\\
 **Grazing incidence SANS and reflectometry combined with simulation of adsorbed microgel particles** \\ **Grazing incidence SANS and reflectometry combined with simulation of adsorbed microgel particles** \\
-[[https://​doi.org/​10.1016/​j.physb.2018.03.049|Physica B, 2018]]+[[https://​doi.org/​10.1016/​j.physb.2018.03.049|Physica B 551172 (2018)]]
  
 S. C. Atkinson, C. Dogovski, K. Wood, M. D. W. Griffin, M. A. Gorman, L. Hor, C. F. Reboul, A. M. Buckle, J. Wuttke, M. W. Parker, R. C. J. Dobson, M. A. Perugini:\\ S. C. Atkinson, C. Dogovski, K. Wood, M. D. W. Griffin, M. A. Gorman, L. Hor, C. F. Reboul, A. M. Buckle, J. Wuttke, M. W. Parker, R. C. J. Dobson, M. A. Perugini:\\
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 (2,​4,​6-CH<​sub>​3</​sub>​PyH)<​sub>​3</​sub>​Bi<​sub>​2</​sub>​Cl<​sub>​9</​sub>​. Crystal structure characterization and (2,​4,​6-CH<​sub>​3</​sub>​PyH)<​sub>​3</​sub>​Bi<​sub>​2</​sub>​Cl<​sub>​9</​sub>​. Crystal structure characterization and
 tunneling of CH<​sub>​3</​sub>​ groups studied by <​sup>​1</​sup>​H NMR and neutron spectroscopy.**\\ tunneling of CH<​sub>​3</​sub>​ groups studied by <​sup>​1</​sup>​H NMR and neutron spectroscopy.**\\
-[[https://​doi.org/​10.1016/​j.poly.2017.10.030|Polyhedron 139, 249]]+[[https://​doi.org/​10.1016/​j.poly.2017.10.030|Polyhedron 139, 249 (2018)]]
  
 A. Glavic, B. Summers, A. Dahal, J. Kline, W. Van Herck, A. Sukhov, A. Ernst, D. K. Singh:\\ A. Glavic, B. Summers, A. Dahal, J. Kline, W. Van Herck, A. Sukhov, A. Ernst, D. K. Singh:\\
 **Spin Solid versus Magnetic Charge Ordered State in Artificial Honeycomb Lattice of Connected Elements.**\\ **Spin Solid versus Magnetic Charge Ordered State in Artificial Honeycomb Lattice of Connected Elements.**\\
-[[https://​doi.org/​10.1002/​advs.201700856|Adv. Sci. 2018, 1700856]]+[[https://​doi.org/​10.1002/​advs.201700856|Adv. Sci. 2018, 1700856 ​(2018)]]
  
  
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 **Multiple Bragg reflection by a thick mosaic crystal.**\\ **Multiple Bragg reflection by a thick mosaic crystal.**\\
 [[http://​dx.doi.org/​10.1107/​S205327331400802X|Acta Cryst. A 70, 429-440 (2014)]]. [[http://​dx.doi.org/​10.1107/​S205327331400802X|Acta Cryst. A 70, 429-440 (2014)]].
 +See also addendum and erratum [[https://​doi.org/​10.1107/​S2053273320000960|Acta Cryst. A 76, 215 (2020)]].
  
 J. Wuttke:\\ J. Wuttke:\\
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 **Comment on “Elastic incoherent neutron scattering operating by varying instrumental energy resolution: Principle, simulations,​ and experiments of the resolution elastic neutron scattering (RENS)” [Rev. Sci. Instrum. 82, 105115 (2011)].**\\ **Comment on “Elastic incoherent neutron scattering operating by varying instrumental energy resolution: Principle, simulations,​ and experiments of the resolution elastic neutron scattering (RENS)” [Rev. Sci. Instrum. 82, 105115 (2011)].**\\
 [[http://​dx.doi.org/​10.1063/​1.4757973|Rev. Sci. Instrum. 83, 107101 (2012)]] [[http://​dx.doi.org/​10.1063/​1.4757973|Rev. Sci. Instrum. 83, 107101 (2012)]]
 +
 +J. Wuttke:\\
 +**Quasielastic Scattering**\\
 +{{::​l19iff01.pdf|Chapter D05}} in: M. Angst, T. Brückel, D. Richter, R. Zorn (eds):\\
 +//​Scattering Methods for Condensed Matter Research: Towards Novel Applications at Future Sources.//
 +43th IFF Spring School 2012.\\
 +Schriften des Forschungszentrums Jülich, Reihe Schlüsseltechnologien,​ Band 33 (2012)\\
 +