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Michal Czapski
Michal Czapski
CERN
Zweryfikowany adres z cern.ch
Tytuł
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Cytowane przez
Rok
Colossal negative thermal expansion in BiNiO3 induced by intermetallic charge transfer
M Azuma, W Chen, H Seki, M Czapski, S Olga, K Oka, M Mizumaki, ...
Nature communications 2 (1), 347, 2011
4352011
Tuning negative thermal expansion in Bi1− xLnxNiO3 (Ln= La, Nd, Eu, Dy)
K Oka, K Nabetani, C Sakaguchi, H Seki, M Czapski, Y Shimakawa, ...
Applied Physics Letters 103 (6), 2013
542013
An overview of the HIE-ISOLDE design study
R Catherall, M Augustin, C Babcock, R Barlow, AP Bernardes, S Cimmino, ...
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2013
332013
Porous silicon carbide and aluminum oxide with unidirectional open porosity as model target materials for radioisotope beam production
M Czapski, T Stora, C Tardivat, S Deville, RS Augusto, J Leloup, ...
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2013
162013
Design of air-cooled beam dump for extraction line of PS booster
A Perillo-Marcone, V Vlachoudis, M Czapski, A Sarrio-Martinez, ...
Conf. Proc. 130512 (CERN-ACC-2013-0274), THPFI062, 2013
42013
The in situ characterization of bacteriochlorophyll c in Langmuir monolayers using polarized UV–vis spectroscopy
A Dudkowiak, M Czapski, M Kotkowiak, J Miyake
Dyes and Pigments 86 (3), 227-232, 2010
22010
A Machine Learning Approach to Helping Small Businesses Find Pandemic Economic-Impact Relief
SG Michal Czapski, Joshua Derenski, Isaac Khader
CHANCE Magazine, 2021
2021
A Machine Learning Approach to Helping Small Businesses Find Pandemic Economic-Impact Relief
M Czapski, S Godfrey, J Derenski, I Khader
Chance 34 (3), 61-68, 2021
2021
Publisher's Note:“Tuning negative thermal expansion in Bi1− xLnxNiO3 (Ln= La, Nd, Eu, Dy)”[Appl. Phys. Lett. 103, 061909 (2013)]
K Oka, K Nabetani, C Sakaguchi, H Seki, M Czapski, Y Shimakawa, ...
Applied Physics Letters 103 (9), 2013
2013
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