G
György Csaba
Researcher at Pázmány Péter Catholic University
Publications - 808
Citations - 13720
György Csaba is an academic researcher from Pázmány Péter Catholic University. The author has contributed to research in topics: Hormonal imprinting & Tetrahymena. The author has an hindex of 46, co-authored 805 publications receiving 12677 citations. Previous affiliations of György Csaba include Hungarian Academy of Sciences & University of Notre Dame.
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Journal ArticleDOI
Majority Logic Gate for Magnetic Quantum-Dot Cellular Automata
Alexandra Imre,Alexandra Imre,György Csaba,György Csaba,Lili Ji,Lili Ji,Alexei O. Orlov,Alexei O. Orlov,Gary H. Bernstein,Gary H. Bernstein,Wolfgang Porod,Wolfgang Porod +11 more
TL;DR: The basic MQCA logic Gate, that is, the three-input majority logic gate, is demonstrated and described.
Journal ArticleDOI
Mice lacking histidine decarboxylase exhibit abnormal mast cells
Hiroshi Ohtsu,Satoshi Tanaka,Tadashi Terui,Yoshio Hori,Yoko Makabe-Kobayashi,Gunnar Pejler,Elena Tchougounova,Lars Hellman,Marina Gertsenstein,Noriyasu Hirasawa,Eiko Sakurai,Edit I. Buzás,Péter Kovács,György Csaba,Ágnes Kittel,Mikiko Okada,Masahiro Hara,Lynn Mar,Keiko Numayama-Tsuruta,Satsuki Ishigaki-Suzuki,Kazuo Ohuchi,Atsushi Ichikawa,András Falus,Takehiko Watanabe,Andras Nagy,Andras Nagy +25 more
TL;DR: These HDC‐deficient mice are viable and fertile but exhibit a decrease in the numbers of mast cells while the remaining mast cells show an altered morphology and reduced granular content.
Journal ArticleDOI
Phylogeny and ontogeny of hormone receptors: the selection theory of receptor formation and hormonal imprinting
TL;DR: Phylogenetic aspects of membrane receptors, selection or reinforcement of receptors in the course of phylogenesis, and selection or amplification of receptors during ontogenesis are studied.
Journal ArticleDOI
Nanocomputing by field-coupled nanomagnets
TL;DR: In this article, the feasibility of using magnetically coupled nanometer-scale ferromagnetic dots for digital information processing was demonstrated through simulations, and a macromodel of interacting nanomagnets was introduced to design and simulate the proposed nanomagnet logic units.
Proceedings ArticleDOI
The Bistable Ring PUF: A new architecture for strong Physical Unclonable Functions
TL;DR: This paper introduces a new architecture for circuit-based Physical Unclonable Functions (PUFs) which it is argued that this new PUF could be a promising candidate for Strong PUFs.