An introductory informatics theoretical framework, based on an integrable lattice model using quantized function algebras, for studying DNA-ionized gas interaction system
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Data
2014
Autores
Kumar, Nirmal [UNESP]
Cruz, Nilson C. [UNESP]
Rangel, Elidiane Cipriano [UNESP]
Shmavonyan, Gagik
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Resumo
Usually we observe that Bio-physical systems or Bio-chemical systems are many a time based on nanoscale phenomenon in different host environments, which involve many particles can often not be solved explicitly. Instead a physicist, biologist or a chemist has to rely either on approximate or numerical methods. For a certain type of systems, called integrable in nature, there exist particular mathematical structures and symmetries which facilitate the exact and explicit description. Most integrable systems, we come across are low-dimensional, for instance, a one-dimensional chain of coupled atoms in DNA molecular system with a particular direction or exist as a vector in the environment. This theoretical research paper aims at bringing one of the pioneering ‘Reaction-Diffusion’ aspects of the DNA-plasma material system based on an integrable lattice model approach utilizing quantized functional algebras, to disseminate the new developments, initiate novel computational and design paradigms.
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Palavras-chave
Nanotechnolgy, Bio-physical/bio-chemical systems, Plasma, Quantized functional algebras, DNA plasma irradiations, Integrable lattice models, Computation
Como citar
International Journal of Applied Research on Information Technology and Computing, v. 5, n. 1, p. 1-13, 2014.