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Transactions of the American Mathematical Society

ISSN 1088-6850(online) ISSN 0002-9947(print)



Nonlinear evolution equations and product stable operators on Banach spaces

Author: G. F. Webb
Journal: Trans. Amer. Math. Soc. 155 (1971), 409-426
MSC: Primary 47.80
MathSciNet review: 0276842
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Abstract: The method of product integration is used to obtain solutions to the time dependent Banach space differential equation $u’(t) = A(t)(u(t)),t \geqq 0$, where $A$ is a function from $[0,\infty )$ to the set of nonlinear operators from the Banach space $X$ to itself and $u$ is a function from $[0,\infty )$ to $X$. The main requirements placed on $A$ are that $A$ is $m$-dissipative and product stable on its domain. Applications are given to a linear partial differential equation, to nonlinear dissipative operators in Hilbert space, and to continuous, $m$-dissipative, everywhere defined operators in Banach spaces.

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Keywords: Nonlinear evolution equation, product integral, <IMG WIDTH="23" HEIGHT="20" ALIGN="BOTTOM" BORDER="0" SRC="images/img1.gif" ALT="$m$">-dissipative mapping, product stable operator, evolution operator
Article copyright: © Copyright 1971 American Mathematical Society