A number of open problems in the field of several complex variables naturally lead to the study of bihomogeneous polynomials
r
(
z
,
z
¯
)
r(z,\bar {z})
on
C
n
+
1
\mathbb {C}^{n+1}
. In particular, both the Ebenfelt sum of squares conjecture and the degree estimate conjecture for proper rational mappings between balls in complex Euclidean spaces lead to the study of the rank of the bihomogeneous polynomial
r
(
z
,
z
¯
)
‖
z
‖
2
r(z,\bar {z}) \left \lVert {z}\right \rVert ^2
under certain additional hypotheses. When
r
r
has a diagonal coefficient matrix, these questions reduce to questions about real homogeneous polynomials. More specifically, we are led to study the rank of
P
=
S
Q
P=SQ
when
Q
Q
is a homogeneous polynomial and
S
(
x
)
=
∑
j
=
0
n
x
j
S(x) = \sum _{j=0}^n x_j
. In this paper, we use techniques from commutative algebra to estimate the minimum rank of
P
=
S
Q
P=SQ
under the additional hypothesis that
Q
Q
has maximum rank. The problem has already been solved for
n
+
1
≤
3
n+1 \leq 3
, and so we consider
n
+
1
≥
4
n+1\geq 4
. We obtain a minimum rank estimate that is sharp when
n
+
1
=
4
n+1=4
, and we exhibit a family of polynomials having this minimum rank. We also prove an estimate for
n
+
1
>
4
n+1>4
that, while not sharp, is non-trivial.
We construct CR mappings between spheres that are invariant under actions of finite unitary groups. In particular, we combine a tensoring procedure with D'Angelo's construction of a canonical group-invariant CR mapping to obtain new invariant mappings. We also explore possible gap phenomena in this setting.
We construct CR mappings between spheres that are invariant under actions of finite unitary groups. In particular, we combine a tensoring procedure with D'Angelo's construction of a canonical group-invariant CR mapping to obtain new invariant mappings. We also explore possible gap phenomena in this setting.
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