1,689 research outputs found
Proper Analytic Free Maps
This paper concerns analytic free maps. These maps are free analogs of
classical analytic functions in several complex variables, and are defined in
terms of non-commuting variables amongst which there are no relations - they
are free variables. Analytic free maps include vector-valued polynomials in
free (non-commuting) variables and form a canonical class of mappings from one
non-commutative domain D in say g variables to another non-commutative domain
D' in g' variables. As a natural extension of the usual notion, an analytic
free map is proper if it maps the boundary of D into the boundary of D'.
Assuming that both domains contain 0, we show that if f:D->D' is a proper
analytic free map, and f(0)=0, then f is one-to-one. Moreover, if also g=g',
then f is invertible and f^(-1) is also an analytic free map. These conclusions
on the map f are the strongest possible without additional assumptions on the
domains D and D'.Comment: 17 pages, final version. To appear in the Journal of Functional
Analysi
The convex Positivstellensatz in a free algebra
Given a monic linear pencil L in g variables let D_L be its positivity
domain, i.e., the set of all g-tuples X of symmetric matrices of all sizes
making L(X) positive semidefinite. Because L is a monic linear pencil, D_L is
convex with interior, and conversely it is known that convex bounded
noncommutative semialgebraic sets with interior are all of the form D_L. The
main result of this paper establishes a perfect noncommutative
Nichtnegativstellensatz on a convex semialgebraic set. Namely, a noncommutative
polynomial p is positive semidefinite on D_L if and only if it has a weighted
sum of squares representation with optimal degree bounds: p = s^* s + \sum_j
f_j^* L f_j, where s, f_j are vectors of noncommutative polynomials of degree
no greater than 1/2 deg(p). This noncommutative result contrasts sharply with
the commutative setting, where there is no control on the degrees of s, f_j and
assuming only p nonnegative, as opposed to p strictly positive, yields a clean
Positivstellensatz so seldom that such cases are noteworthy.Comment: 22 page
A Semidefinite Approach for Truncated K-Moment Problems
A truncated moment sequence (tms) of degree d is a vector indexed by
monomials whose degree is at most d. Let K be a semialgebraic set.The truncated
K-moment problem (TKMP) is: when does a tms y admit a positive Borel measure
supported? This paper proposes a semidefinite programming (SDP) approach for
solving TKMP. When K is compact, we get the following results: whether a tms y
of degree d admits a K-measure or notcan be checked via solving a sequence of
SDP problems; when y admits no K-measure, a certificate will be given; when y
admits a K-measure, a representing measure for y would be obtained from solving
the SDP under some necessary and some sufficient conditions. Moreover, we also
propose a practical SDP method for finding flat extensions, which in our
numerical experiments always finds a finitely atomic representing measure for a
tms when it admits one
The possible shapes of numerical ranges
Which convex subsets of the complex plane are the numerical range W(A of some
matrix A? This paper gives a precise characterization of these sets. In
addition to this we show that for any A there exists a symmetric matrix B of
the same size such that W(A)=W(B).Comment: 4 page
On real one-sided ideals in a free algebra
In classical and real algebraic geometry there are several notions of the
radical of an ideal I. There is the vanishing radical defined as the set of all
real polynomials vanishing on the real zero set of I, and the real radical
defined as the smallest real ideal containing I. By the real Nullstellensatz
they coincide. This paper focuses on extensions of these to the free algebra
R of noncommutative real polynomials in x=(x_1,...,x_g) and
x^*=(x_1^*,...,x_g^*).
We work with a natural notion of the (noncommutative real) zero set V(I) of a
left ideal I in the free algebra. The vanishing radical of I is the set of all
noncommutative polynomials p which vanish on V(I). In this paper our quest is
to find classes of left ideals I which coincide with their vanishing radical.
We completely succeed for monomial ideals and homogeneous principal ideals. We
also present the case of principal univariate ideals with a degree two
generator and find that it is very messy. Also we give an algorithm (running
under NCAlgebra) which checks if a left ideal is radical or is not, and
illustrate how one uses our implementation of it.Comment: v1: 31 pages; v2: 32 page
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