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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry (Springer Theses) - Hardcover
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Amit Agarwal’s thesis reports a substantial contribution to the microscopic simulation of radiation chemical reactions. In his research Agarwal extends existing models to further understand scavenging, spin and relaxation effects. This research has advanced the development of both the Monte Carlo Random Flights and the Independent Reaction Times (IRT) simulation tools. Particular highlights are the extension of these tools to include both the spin-exchange interaction and spin relaxation, both of which are influential in radiolytic systems where many reactions are spin-controlled. In addition, the study has led to the discovery of a novel correlation of the scavenging rate with the recombination time in low permittivity solvents. This finding goes against existing assumptions underlying the theory of diffusion kinetics while still being accommodated in the IRT method which demonstrates the power of this unconventional approach. The work in this thesis can be applied to a wide number of fields including the nuclear industry, medicine, food treatment, polymer curing, the preparation of nano-colloids, power generation and waste disposal.
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Amit Agarwal’s thesis reports a substantial contribution to the microscopic simulation of radiation chemical reactions. In his research Agarwal extends existing models to further understand scavenging, spin and relaxation effects. This research has advanced the development of both the Monte Carlo Random Flights and the Independent Reaction Times (IRT) simulation tools. Particular highlights are the extension of these tools to include both the spin-exchange interaction and spin relaxation, both of which are influential in radiolytic systems where many reactions are spin-controlled. In addition, the study has led to the discovery of a novel correlation of the scavenging rate with the recombination time in low permittivity solvents. This finding goes against existing assumptions underlying the theory of diffusion kinetics while still being accommodated in the IRT method which demonstrates the power of this unconventional approach. The work in this thesis can be applied to a wide number of fields including the nuclear industry, medicine, food treatment, polymer curing, the preparation of nano-colloids, power generation and waste disposal.
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry.
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ISBN 10: 3319062719
ISBN 13: 9783319062716
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235 mm x 155 mm. XXV, 339 p. Hardcover. Versand aus Deutschland / We dispatch from Germany via Air Mail. Einband bestoßen, daher Mängelexemplar gestempelt, sonst sehr guter Zustand. Imperfect copy due to slightly bumped cover, apart from this in very good condition. Stamped. Stamped. Springer Theses. Sprache: Englisch. Seller Inventory # 5345EB
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry
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Springer International Publishing, 2014
ISBN 10: 3319062719
ISBN 13: 9783319062716
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry (Springer Theses)
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry
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Gebunden. Condition: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Nominated as an outstanding Ph.D. thesis by the University Of Oxford, UKIncludes an introduction to radiation chemistry which is suitable for newcomers to the fieldDescribes new simulation techniques to model spur kinetics with an explicit . Seller Inventory # 4497522
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry
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ISBN 10: 3319062719
ISBN 13: 9783319062716
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Buch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Amit Agarwal's thesis reports a substantial contribution to the microscopic simulation of radiation chemical reactions. In his research Agarwal extends existing models to further understand scavenging, spin and relaxation effects. This research has advanced the development of both the Monte Carlo Random Flights and the Independent Reaction Times (IRT) simulation tools. Particular highlights are the extension of these tools to include both the spin-exchange interaction and spin relaxation, both of which are influential in radiolytic systems where many reactions are spin-controlled. In addition, the study has led to the discovery of a novel correlation of the scavenging rate with the recombination time in low permittivity solvents. This finding goes against existing assumptions underlying the theory of diffusion kinetics while still being accommodated in the IRT method which demonstrates the power of this unconventional approach. The work in this thesis can be applied to a wide number of fields including the nuclear industry, medicine, food treatment, polymer curing, the preparation of nano-colloids, power generation and waste disposal. 368 pp. Englisch. Seller Inventory # 9783319062716
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry (Springer Theses)
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry
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ISBN 10: 3319062719
ISBN 13: 9783319062716
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Buch. Condition: Neu. Druck auf Anfrage Neuware - Printed after ordering - Amit Agarwal's thesis reports a substantial contribution to the microscopic simulation of radiation chemical reactions. In his research Agarwal extends existing models to further understand scavenging, spin and relaxation effects. This research has advanced the development of both the Monte Carlo Random Flights and the Independent Reaction Times (IRT) simulation tools. Particular highlights are the extension of these tools to include both the spin-exchange interaction and spin relaxation, both of which are influential in radiolytic systems where many reactions are spin-controlled. In addition, the study has led to the discovery of a novel correlation of the scavenging rate with the recombination time in low permittivity solvents. This finding goes against existing assumptions underlying the theory of diffusion kinetics while still being accommodated in the IRT method which demonstrates the power of this unconventional approach. The work in this thesis can be applied to a wide number of fields including the nuclear industry, medicine, food treatment, polymer curing, the preparation of nano-colloids, power generation and waste disposal. Seller Inventory # 9783319062716
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry
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Simulation Studies of Recombination Kinetics and Spin Dynamics in Radiation Chemistry
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ISBN 13: 9783319062716
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Buch. Condition: Neu. This item is printed on demand - Print on Demand Titel. Neuware -Amit Agarwal¿s thesis reports a substantial contribution to the microscopic simulation of radiation chemical reactions. In his research Agarwal extends existing models to further understand scavenging, spin and relaxation effects.This research has advanced the development of both the Monte Carlo Random Flights and the Independent Reaction Times (IRT) simulation tools.Particular highlights are the extension of these tools to include both the spin-exchange interaction and spin relaxation, both of which are influential in radiolytic systems where many reactions are spin-controlled.In addition, the study has led to the discovery of a novel correlation of the scavenging rate with the recombination time in low permittivity solvents. This finding goes against existing assumptions underlying the theory of diffusion kinetics while still being accommodated in the IRT method which demonstrates the power of this unconventional approach. The work in this thesis can be applied to a wide number of fields including the nuclear industry, medicine,food treatment, polymer curing, the preparation of nano-colloids, power generation and waste disposal.Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg 368 pp. Englisch. Seller Inventory # 9783319062716
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