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Transcript 
Classification of 7-Dimensional Unital
Commutative Algebras
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES Conference
May 17, 2014
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Algebras
Let K be a field (e.g. C).
Definition
A vector space A over K is called an algebra over K if A is
equipped with a product operation which is compatible with the
addition and scalar multiplication.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Finite Dimensional Algebras
An algebra A is said to be finite dimensional if A is finite
dimensional as a vector space.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Finite Dimensional Algebras
An algebra A is said to be finite dimensional if A is finite
dimensional as a vector space.
An algebra A is said to be unital if there exists an identity
I ∈ A such that I · a = a · I = a for all a ∈ A.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Finite Dimensional Algebras
An algebra A is said to be finite dimensional if A is finite
dimensional as a vector space.
An algebra A is said to be unital if there exists an identity
I ∈ A such that I · a = a · I = a for all a ∈ A.
An algebra A is called commutative if ab = ba for all
a, b ∈ A.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Examples of Finite Dimensional Algebras
Mn (C) : the set of all n × n matrices with entries in C.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Examples of Finite Dimensional Algebras
Mn (C) : the set of all n × n matrices with entries in C.
The set Mn (C) is an algebra with the usual matrix addition,
scalar multiplication and matrix product.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Examples of Finite Dimensional Algebras
Mn (C) : the set of all n × n matrices with entries in C.
The set Mn (C) is an algebra with the usual matrix addition,
scalar multiplication and matrix product.
The algebra Mn (C) is unital and finite dimensional over C
with dimension n2 .
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Examples of Finite Dimensional Algebras
Mn (C) : the set of all n × n matrices with entries in C.
The set Mn (C) is an algebra with the usual matrix addition,
scalar multiplication and matrix product.
The algebra Mn (C) is unital and finite dimensional over C
with dimension n2 .
The algebra Mn (C) is not commutative if n > 1.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Examples of Finite Dimensional Algebras
A: the algebra of all 3 × 3 matrices of the following form:


a b c


 0 a b 
0 0 a
for any a, b, c ∈ C.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Examples of Finite Dimensional Algebras
A: the algebra of all 3 × 3 matrices of the following form:


a b c


 0 a b 
0 0 a
for any a, b, c ∈ C.
A: a 3-dimensional unital commutative algebra over C.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Homomorphisms of Algebras
A, B: two algebras over the field K .
Definition
A map f : A → B, is called a homomorphism if
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Homomorphisms of Algebras
A, B: two algebras over the field K .
Definition
A map f : A → B, is called a homomorphism if
f respects scalar multiplication;
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Homomorphisms of Algebras
A, B: two algebras over the field K .
Definition
A map f : A → B, is called a homomorphism if
f respects scalar multiplication;
f respects addition;
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Homomorphisms of Algebras
A, B: two algebras over the field K .
Definition
A map f : A → B, is called a homomorphism if
f respects scalar multiplication;
f respects addition;
f respects product.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Isomorphisms of Algebras
A homomorphism f : A → B, is called an isomorphism if it
is bijective.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Isomorphisms of Algebras
A homomorphism f : A → B, is called an isomorphism if it
is bijective.
Two algebras A and B are said to be isomorphic if there
exists an isomorphism f : A → B.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Structure of Finite Dimensional Algebras
Theorem
Let K be a field. If A is an n-dimensional unital algebra over K ,
then A is isomorphic to a subalgebra of Mn (K ), the unital algebra
of all n × n matrices over K .
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Classification Problem
Problem
Classify unital finite dimensional commutative algebra up to
isomorphism.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Discovering Examples Through Jordan Forms
Let A be a 7-dimensional unital commutative algebra over a field
K . A is a subalgebra of M7 (K ). Assume that every element in A is
upper triangular and A contains an element with the following
Jordan form:







J=





Alexandria Yu
Mentor: Sherry Gong
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
0







.





Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Jordan Form
For any x and y in A, we have xJ = Jx and yJ = Jy . Hence







x =





Alexandria Yu
Mentor: Sherry Gong
0
0
0
0
0
0
0
a
0
0
0
0
0
0
b
a
0
0
0
0
0
0
0
0
0
0
0
0
f
0
0
c
0
0
0

g h

f g 

0 f 


d e ;

c d 


0 c 
0 0
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Jordan Form







y =





Alexandria Yu
Mentor: Sherry Gong
0
0
0
0
0
0
0
k
0
0
0
0
0
0
l
k
0
0
0
0
0

0 q r s

0 0 q r 

0 0 0 q 


0 m n p .

0 0 m n 


0 0 0 m 
0 0 0 0
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Jordan Form







xy = 





Alexandria Yu
0
0
0
0
0
0
0
0 ak 0 0 aq + fm ar + bq + fn + gm
0 0 0 0
0
aq + fm
0 0 0 0
0
0
0 0 0 0
mc
nc + md
0 0 0 0
0
mc
0 0 0 0
0
0
0 0 0 0
0
0
Mentor: Sherry Gong







.





Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Jordan Form
Using the above formula and xy = yx, we obtain
a−c
k −m
=
.
f
q
Let
α=
We have
αr + n − l
αg + d − b
=
.
q
f
Let
β=
Alexandria Yu
k −m
a−c
=
.
f
q
Mentor: Sherry Gong
αg + d − b
αr + n − l
=
.
q
f
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
A New Family of Algebras
For each pair of (α, β), A(α, β) is the 7-dimensional unital
commutative algebra of all matrices







x =





k
0
0
0
0
0
0
a
k
0
0
0
0
0
b
a
k
0
0
0
0
0
0
0
k
0
0
0
f
0
0
c
k
0
0

g h

f g 

0 f 


d e 

c d 


k c 
0 k
for all k, a, b, c, d, e, f , g , h ∈ K satisfying
a − c = αf ,
Alexandria Yu
Mentor: Sherry Gong
αg + d − b = βf .
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
A Classification Problem
Problem
For two pairs of (α, β) and (α0 , β 0 ), when is A(α, β) isomorphic to
A(α0 , β 0 )?
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Classification Theorem
Theorem
If α 6= 0 and β 6= 0, then A(α, β) is isomorphic to the
7-dimensional unital commutative algebra:
{k0 I + k1 x + k2 x 2 + k3 y + k4 y 2 + k5 y 3 + k6 z :
ki ∈ K },
where x, y , z are the generators satisfying the relations:
x 3 = 0, y 4 = 0, z 2 = 0, xy = xz = yz = 0.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Classification Theorem
Theorem
If α 6= 0 and β 6= 0, then A(α, β) is isomorphic to the
7-dimensional unital commutative algebra:
{k0 I + k1 x + k2 x 2 + k3 y + k4 y 2 + k5 y 3 + k6 z :
ki ∈ K },
where x, y , z are the generators satisfying the relations:
x 3 = 0, y 4 = 0, z 2 = 0, xy = xz = yz = 0.
Corollary: If α 6= 0, β 6= 0, α0 6= 0 and β 0 6= 0, then A(α, β) is
isomorphic to A(α0 , β 0 ).
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Proof of Theorem
Let







a=





Alexandria Yu
Mentor: Sherry Gong
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
1
α
0
0
0
0
0
0
β
α2
1
α
0
0
0
0
0
0

β
α2
1
α






0 ;

0 


0 
0
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Proof







b=





Alexandria Yu
Mentor: Sherry Gong
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0 − α1
0 0
0 0
0 1
0 0
0 0
0 0
− αβ2
− α1
0
0
1
0
0
0
− αβ2
− α1
0
0
1
0







;





Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Proof







c =





Alexandria Yu
Mentor: Sherry Gong
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0







.





Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Proof
We have
a3 = 0, b 4 = 0, c 2 = 0, ab = ac = bc = 0.
We can verify that
A(α, β) =
{k0 I + k1 a + k2 a2 + k3 b + k4 b 2 + k5 b 3 + k6 c :
ki ∈ K }.
We construct an isomophism by: a → x, b → y , c → z.
QED
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Classification of Unital 7-dimensional Commutative
Algebras
For any α1 , α2 , α3 , α4 in a field K , define A(α1 , α2 , α3 , α4 ) to be
the 7-dimensional unital commutative algebra over K :
{k0 I + k1 x1 + k2 x2 + k3 x3 + k4 x4 + k5 B1 + k6 B2 : ki ∈ K },
where x1 , x2 , x3 , x4 , B1 , B2 are the generators satisfying the
relations:
(1) xi Bj = 0 for all i and j;
(2) Bi Bj = 0 for all i and j;
(3) xi xj = 0 for all i 6= j;
(4) xi2 = B1 + αi B2 for all i;
(5) xi3 = 0 for all i.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
A Classification Result
Theorem
Let K be an algebraically closed field. Let
α1 , α2 , α3 , α4 , β1 , β2 , β3 , β4 be scalars in K . Assume that αi 6= αj
for some pair i and j. The unital commutative algebras
A(α1 , α2 , α3 , α4 ) and A(β1 , β2 , β3 , β4 ) are isomorphic
if and only if
!
q11 q12
there exists an invertible matrix
and a permutation
q21 q22
σ of {1, 2, 3, 4} such that
βi =
Alexandria Yu
Mentor: Sherry Gong
q21 + q22 ασ(i)
.
q11 + q12 ασ(i)
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
A Classification Result
Theorem
Let K be an algebraically closed field. Let
α1 , α2 , α3 , α4 , β1 , β2 , β3 , β4 be scalars in K . Assume that αi 6= αj
for some pair i and j. The unital commutative algebras
A(α1 , α2 , α3 , α4 ) and A(β1 , β2 , β3 , β4 ) are isomorphic
if and only if
!
q11 q12
there exists an invertible matrix
and a permutation
q21 q22
σ of {1, 2, 3, 4} such that
βi =
q21 + q22 ασ(i)
.
q11 + q12 ασ(i)
A field K is said to be algebraically closed if every polynomial
equation with coefficients in K has a solution in K (e.g. C).
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Proof of the If Part (the Easy Part)
We denote the generators of A(β1 , β2 , β3 , β4 ) by:
y1 , y2 , y3 , y4 , C1 , C2 .
We construct an isomorphism:
f : A(α1 , α2 , α3 , α4 ) → A(β1 , β2 , β3 , β4 )
as follows:
f (xi ) =
√
q11 + αi q12 yσ−1 (i) ,
f (B1 ) = q11 C1 + q21 C2 ,
f (B2 ) = q12 C1 + q22 C2 .
QED
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
A Consequence
The following result gives an easily verifiable necessary condition
for two algebras in the family to be isomorphic.
Theorem
Assume that αi 6= αj for some pair i and j. If A(α1 , α2 , α3 , α4 ) is
isomorphic to A(β1 , β2 , β3 , β4 ), then there exists a permutation σ
of {1, 2, 3, 4} such that



det 


Alexandria Yu
Mentor: Sherry Gong
β1
β2
β3
β4
β1 ασ(1)
β2 ασ(2)
β3 ασ(3)
β4 ασ(4)
1
1
1
1
ασ(1)
ασ(2)
ασ(3)
ασ(4)



 = 0.


Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Proof
By the previous
! theorem, there exists an invertible matrix
q11 q12
and a permutation σ of {1, 2, 3, 4} such that
q21 q22
βi =
Alexandria Yu
Mentor: Sherry Gong
q21 + q22 ασ(i)
.
q11 + q12 ασ(i)
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Proof
It follows that the following linear system (with q11 , q12 , q21 , and
q22 as the unknowns) has a nonzero solution:
β1 q11 + β1 ασ(1) q12 − q21 − ασ(1) q22 = 0,
β2 q11 + β2 ασ(2) q12 − q21 − ασ(2) q22 = 0,
β3 q11 + β3 ασ(3) q12 − q21 − ασ(3) q22 = 0,
β4 q11 + β4 ασ(4) q12 − q21 − ασ(4) q22 = 0.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Proof
Hence



det 


β1
β2
β3
β4
β1 ασ(1)
β2 ασ(2)
β3 ασ(3)
β4 ασ(4)
1
1
1
1
ασ(1)
ασ(2)
ασ(3)
ασ(4)



 = 0.


QED
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
An Application
We give a new proof of the following result due to Professor
Poonen.
Corollary
Let K be an algebraically closed field. There exist infinitely many
non-isomorphic 7-dimensional unital commutative algebras over K .
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Sketch of Proof
Recall that any algebraically closed field has infinitely many
elements. We choose α1 = 1, α2 = α, α3 = α2 , α4 = α3 and apply
the previous theorem.
QED
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Future Directions
I plan to study the question of classifying all 7-dimensional
unital commutative algebras.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Future Directions
I plan to study the question of classifying all 7-dimensional
unital commutative algebras.
We conjecture: there are only finitely many 7-dimensional
unital commutative algebras up to isomorphism outside the
family of 7-dimensional unital commutative algebras
A(α1 , α2 , α3 , α4 ).
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Future Directions
I plan to study the question of classifying all 7-dimensional
unital commutative algebras.
We conjecture: there are only finitely many 7-dimensional
unital commutative algebras up to isomorphism outside the
family of 7-dimensional unital commutative algebras
A(α1 , α2 , α3 , α4 ).
A more ambitious project: classify all finite dimensional unital
commutative algebras up to isomorphism.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
Thank You!
I would like to thank
Sherry Gong
Dr. Tanya Khovanova
Professor Bjorn Poonen and Professor Pavel Etingof
Dr. Justin Fitzpatrick
The MIT Primes Program
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
References
G. Mazzola, Generic finite schemes and Hochschild cocycles,
Comment. Math. Helv. 55 (1980), no. 2, 267–293.
B. Poonen, Isomorphism types of commutative algebras of
finite rank over an algebraically closed field,
http://www-math.mit.edu/ poonen/papers/dimension6.pdf.
B. Poonen, The moduli space of commutative algebras of
finite rank,
http://www-math.mit.edu/ poonen/papers/moduli.pdf.
Alexandria Yu
Mentor: Sherry Gong
Fourth Annual MIT PRIMES
Classification
Conference of 7-Dimensional Unital Commutative Algebras
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