Linear Operators, Part 2 |
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Page 1223
Consider , as an example , an operator which will be studied in greater detail in
the next chapter : the differential operator iD = i ( d / dt ) in the space L2 ( 0 , 1 ) .
How are we to choose its domain ? A natural first guess is to choose as domain ...
Consider , as an example , an operator which will be studied in greater detail in
the next chapter : the differential operator iD = i ( d / dt ) in the space L2 ( 0 , 1 ) .
How are we to choose its domain ? A natural first guess is to choose as domain ...
Page 1248
The subspace M is called the initial domain of P and PM ( = PH ) is called the
final domain of P . 5 LEMMA . ... In this case PP * is also a projection and the
ranges of P * P and PP * are the initial and final domains , respectively , of P .
Proof .
The subspace M is called the initial domain of P and PM ( = PH ) is called the
final domain of P . 5 LEMMA . ... In this case PP * is also a projection and the
ranges of P * P and PP * are the initial and final domains , respectively , of P .
Proof .
Page 1249
Thus PP * is a projection whose range is N = PM , the final domain of P . To
complete the proof it will suffice to show that P * P is a projection if P is a partial
isometry . Let x , v E M , the initial domain of P . Then the identity ( x + 12 = \ Px +
Pul2 ...
Thus PP * is a projection whose range is N = PM , the final domain of P . To
complete the proof it will suffice to show that P * P is a projection if P is a partial
isometry . Let x , v E M , the initial domain of P . Then the identity ( x + 12 = \ Px +
Pul2 ...
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Contents
BAlgebras | 859 |
Commutative BAlgebras | 868 |
Commutative BAlgebras | 874 |
Copyright | |
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additive adjoint operator algebra Amer analytic assume Banach spaces basis belongs Borel boundary conditions boundary values bounded called clear closed closure coefficients compact complex Consequently constant contains continuous converges Corollary corresponding defined Definition denote dense derivatives determined domain eigenvalues element equal equation essential spectrum evident Exercise exists extension finite follows formal differential operator formula function give given Hence Hilbert space identity independent indices inequality integral interval Lemma limit linear mapping Math matrix measure multiplicity neighborhood norm obtained partial positive preceding present problem projection proof properties prove range regular remark representation respectively restriction result satisfies seen sequence shown singular solution spectral square-integrable statement subset subspace sufficiently Suppose symmetric Theorem theory topology transform unique vanishes vector zero
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Bibliographic information
| Title | Linear Operators, Part 2 Linear Operators, Jacob T. Schwartz Volume 7 of Pure and applied mathematics Issue 7 of Pure and applied mathematics; a series of monographs and textbooks |
| Authors | Nelson Dunford, Jacob T. Schwartz |
| Publisher | Interscience Publishers, 1963 |
| Original from | the University of Michigan |
| Digitized | 20 Nov 2007 |
| ISBN | 0471226386, 9780471226383 |
| Length | 2592 pages |
| Export Citation | BiBTeX EndNote RefMan |