ltogether COMPACT SETS OF LINEAR OPERATORS
PHILIP MARSHALL ANSELONE AND THEODORE WINDLE PALMER
Vol. 25, No. 3 November 1968
PACIFIC JOURNAL OF MATHEMATICS
Vol. 25, No. 3, 1968
Altogether COMPACT SETS OF LINEAR
Administrators
P. M. ANSELONE AND T. W. PALMER
A lot of straight administrators from one normed direct space
to another is altogether minimal if and just if the association of
the pictures of the unit ball has conservative conclusion. This paper
concerns general properties of such sets. A few valuable cri
teria for sets of direct administrators to be all in all minimized
are given. Specifically, every minimal arrangement of minimized straight
administrators is on the whole minimal. As a fractional talk, each
by and large smaller arrangement of self adjoint or ordinary administrators
on a Hubert space is completely limited.
Leave X and Y alone genuine or complex normed direct spaces and [X, Y]
the space of limited direct administrators on X into Y. It is accepted that
[X, Y] has the standard geography aside from in Proposition 2.1(c), where a
solid conclusion shows up.
Let £g mean the shut unit ball in X. At that point 3ίT c [X, Y] is
all in all minimal if and just if the set Sγ^ = {Kx: Ke J>γ,
x e ^) has conservative conclusion in Y. By and large minimized sets and their
applications to indispensable conditions have been treated in various
papers [1-5, 7-9, 11-12]. Results acquired in this paper are utilized in
a spin-off [6] which relates ghastly properties of administrators T and Γw
,
n = 1, 2, . , with the end goal that Tn
— T emphatically and {Tn
- T} is by and large
smaller.
As often as possible it will be important to show that a set in Y or [X, Y]
is smaller. For this reason, review that a subset of a measurement space
is minimized if and just in the event that it is shut and consecutively reduced if and
just on the off chance that it is finished and completely limited (for each ε > 0 it has a
limited ε-net). A frequently valuable truth is that a set is completely limited
at whatever point it has a completely limited ε-net for each ε > 0. The natural
suggestion that a consistent capacity from one topological space to
another guides minimized sets onto smaller sets will be utilized a few
times. The accompanying speculation of the Arzela-Ascoli hypothesis will
be required.
LEMMA 1.1. Leave g alone an equicontinuous set of capacities from
a smaller measurement space J3t~ into a measurement space. For every p e 3ίγ,
accept that the set %p — {f(p): f £ J%γ} has minimized conclusion. At that point
the set gJΓ" = {f(p): f eg, pe <3f] has minimized conclusion.
2. General properties of all in all minimized sets* Collectively
minimized arrangements of administrators have various properties closely resembling
417
418 P. M. ANSELONE AND T. W. PALMER
those of sets with reduced conclusion in self-assertive normed direct spaces.
For instance, any subset or scalar different of an all things considered reduced
set is all things considered minimal. Any limited association or total of all in all
conservative sets is all things considered minimal. An all in all conservative set is
fundamentally limited.
Suggestion 2.1. Let SΓa[X, Y] be on the whole minimal. At that point
the accompanying sets are all things considered reduced:
(a) The arched structure of Jf\
(b) The surrounded structure {XK: | λ | ^ 1, Ke ST} of
( c ) The solid conclusion ^%γ* and standard conclusion ^ P of
(d) {ΣίU KKn
- Kn
e 3T, ΣSU \K\ ^ b) for every b > 0, N ^
Verification. Mazur's hypothesis [10, p. 416] yields (a). The orbited body
of a smaller set in Y is conservative since the guide/characterized by/(λ, y) = Xy
is persistent. This yields (b). Since ^T c JP S
what's more, Sϊ~s
έ3 c
(c) is legitimate. Since 3ίγ is limited, the set in (d) has a place with the standard
conclusion of the arched hovered structure of bS%~.
The following outcome includes integrals of administrator esteemed capacities.
Let Γ be a limited stretch if X is genuine and a rectifiable curve if X is
complex. Assume Ka
(X) c [X, Y] for Xeγ and an of every a list set A.
For each ae An accept that \ Ka
(X)dX is the solid or standard constraint of
the standard approximating entireties,
Recommendation 2.2. With the previous documentation, expect that {Ka
(x):
a G A, Xeγ} is all things considered minimal. At that point l\ Ka
(X)dX: ae A> is col
lectively minimal.
Verification. This follows from Proposition 2.1(c), (d) and
Σ I λi
- \ - I 1 ^ length (Γ) .
3 = 1
For the following suggestion, let Z be another normed straight space.
Suggestion 2.3. Let ST c [X, F], ^/S c [Z, X] and ^ r c [γ, Z].
At that point
(a) ^%^ all things considered minimal, Λ? limited =» *f%γ^/έ all things considered
minimal,
(b) J ^ all things considered minimal, J{r reduced =>yΓJΓ on the whole
minimal.
All things considered COMPACT SETS OF LINEAR OPERATORS 41S
Verification, (a) Suppose \\M\\ <r for all Me^/f. At that point
c 3tr&
so J>f ^/S& is minimal and 3ίγ^-/ίf is all in all reduced, (b) Define
a guide/: Jϊr x 3tTέ% - +Z by f(N, y) = Λfy for Ne^F', y e Jϊγέ§.
Since ^//' and 5iγ& are minimal and/is constant, its range, which
contains ^SίΓ^f, is smaller. Subsequently Λ*5ϊί& is minimized and Λ^SίΓ
is all things considered conservative.
An all things considered conservative set is a limited arrangement of minimized administrators.
The opposite bombs as can be seen by considering the arrangement of one di
mensional projections of standard one in any interminable dimensional Banach
space. Anyway we have:
Hypothesis 2.4. Each conservative set S>ίί of minimal administrators in
[X, Y] is on the whole smaller.
Confirmation. Characterize maps fx
- ST-*Yby fx
(K) = Kx for K e _3γ, xe&
furthermore, let g - {/.: x e .^}. Since \\fx
(K, - K2
) \\ ^ || Kt
- K2
1|, g is equi
ceaseless. Since each KeJ%Γ is smaller, the sets $K = K& are
conservative. By speculation, Sίί is smaller. Consequently, by Lemma 1.1,
%<f%γ = S^f.^J is conservative and 3ίγ is all things considered minimal.
Hypothesis 2.5. /Y is finished, at that point each completely limited set
of smaller administrators in [X, Y] is by and large minimal.
Verification. For this situation, Jsf is a reduced arrangement of minimal administrators.
By Theorem 2.4, Sίί is all things considered reduced. Consequently, J ^ is aggregate
ly smaller.
The banters of Theorems 2.4 and 2.5 are bogus:
Model 2.6. Leave 3ίί alone the arrangement of administrators on lp
(l ^ p ^ oo)
characterized by Kn
x — xnφlf n}>l. Since 5ίγ& is limited and one
dimensional, J%γ is altogether smaller. Yet, S>f isn't completely bound
ed, for || Km
- Kn
\\ = 2ιl
» if m Φ n.
Fractional banters of Theorem 2.5 are given in the following area.
3. Administrators on a Hubert space. All through this segment, let
X be a Hubert space. It will be indicated that each all things considered com
agreement set of self adjoint or ordinary administrators in [X, X] is completely
limited.
We start by thinking about arrangements of projections. Let £f — {x: || x \\ — 1}
furthermore, for every x e £f, let Ex
be the self adjoint projection onto the
,subspace spread over by x.
420 P. M. ANSELONE AND T. W. PALMER
LEMMA 3.1. Let ^ c Sf and . /= {Ex
- x e ^/}. (Therefore, ^ can
be any arrangement of self adjoint projections with one-dimensional extents.)
The accompanying explanations are proportional:
(a ) ^ is completely limited;
(b) ^/S is completely limited;
( c) ^/? is on the whole conservative.
Confirmation. Since Ex
y = (y, x)x for yeX and xeS^, the guide/:
£S-+[X, X] given by f(x) = Ex
is ceaseless. Since ^/S
(a) suggests (b). By Theorem 2.5, (b) suggests (c). Since ^ c
(c) suggests (a).
LEMMA 3.2. Le£ ^/Z be an on the whole conservative arrangement of self adjoint
projections and Λ?' any subset comprising of commonly symmetrical projections.
At that point ^r?f
is limited and there is a number n, autonomous
of ^fίf', with the end goal that
Σ diminish EX
Evidence. Since ^f £f is completely limited, it very well may be secured by a
limited number n of open bundles of span 1/2. In the event that x, y e ^//'S? what's more, x _L y
at that point \\x — y\\ = ~\/2,so that x and ^/lie in various balls. The lemma
follows.
LEMMA 3.3. Assume X is a genuine Hilbert space and X is its
complexification characterized in the typical manner. For J%γ cz[X, X], let
J%γ c [X, X] be the arrangement of sanctioned expansions of administrators in 3ίγ.
At that point 5$γ is all things considered minimized if and just if Jϊϊγ is all in all
conservative.
Since the confirmation is clear, it is overlooked.
We are presently prepared to set up the chief aftereffects of this segment.
Hypothesis 3.4. Let ^γ be a lot of self adjoint or ordinary reduced
administrators on a Hilbert space. At that point the accompanying articulations
are equal:
( a ) J%γ is aggregately minimal.
(b) JίT* = {K*: Ke^T) is aggregately minimal.
(c ) J%γ is completely limited.
Evidence. Without loss of sweeping statement, X is mind boggling. Expect
3ίγ = {Ka
- aeA}
aggregately minimal. At that point each Ka
is minimized. For each aeA,
Aggregately COMPACT SETS OF LINEAR OPERATORS 421
the phantom hypothesis yields a deterioration
with the self adjoint projections Ean multually symmetrical and with
dimίϊ^X^ 1 (in this way, the Xan are not really unmistakable). Since
is limited, there exists 6 < °o to such an extent that
For a € An and ε > 0, let
Naε = {n: \\an\^e},
^ = {Ean: aeA,ne Nas} ,
Λ α e
= 2J ^ccnEan >
neNaε
j%T = {Kaε: aeA} .
At that point KaEan = XanEan and, for n e Naε, Ean& = \~l
nKaEan^ c e~l
Ka&>
In this way, ^C ^ c e~ι
J3γέ2? also, ^C is on the whole conservative. Bj
Lemma 3.1, ^/C is completely limited. By Lemma 3.2, there exists n
to such an extent that, for each ae A, Naε contains close to nε
components
At that point J3ft is in the curved hovered structure of b nε
^/Sε
, so <_%f is completely
limited. Since \\Ka
— Kaε\\ < ε for all aeA, j%7 is a ε-net foi
In this way, Jίγ is completely limited.
This outcome and Theorem 2.5 give:
on the whole minimal if and just if Jγ~ completely limited .
Since || T* || = || Γ|| for all Te [X, X],
3f completely limited if and just if J^ * completely limited .
The hypothesis follows.
Hypothesis 3.5. Let 3γ be a lot of smaller administrators on a Hilber
space. At that point J%γ is completely limited if and just if both Sγ and
are all things considered conservative.
Verification. As above, Jγ* completely limited suggests Sγ and J%γ* col
lectively smaller. Presently expect 3γ and 3f* all things considered minimal
At that point the sets
and - {K + if*: Ke Sγ} , J? = {K - K*: KeST}
are all things considered conservative. By Theorem 3.4, and ^ are totall;
limited. Since 3ίγ U ^γ* c ( ^ + J^) U ( ^ - ^) , both Sγ an<
are completely limited.
422 P. M. ANSELONE AND T. W. PALMER
For the all things considered conservative set J%γ in Example 2.6 with p = 2,
Secondary sources:
- ^ Thomas Best (2020-08-02). "sciencedirectassets" (PDF). sciencedirectassets.