See: Description
Interface | Description |
---|---|
Algebra |
This interface defines an algebra.
|
Algebra.Member |
This interface defines a member of an algebra.
|
BanachSpace |
This interface defines a Banach space.
|
BanachSpace.Member |
This interface defines a member of a Banach Space.
|
CStarAlgebra |
This interface defines a C*-algebra.
|
CStarAlgebra.Member |
This interface defines a member of a C*-algebra.
|
HilbertSpace.Member |
This interface defines a member of a Hilbert space.
|
Module |
This interface defines a module.
|
Module.Member |
This interface defines a member of a module.
|
VectorSpace |
This interface defines a vector space.
|
VectorSpace.Member |
This interface defines a member of a vector space, i.e.
|
Class | Description |
---|---|
HilbertSpace |
The HilbertSpace class encapsulates Hilbert spaces.
|
LieAlgebra |
The LieAlgebra class provides an abstract encapsulation for Lie algebras.
|
so3_1Dim4 |
The so3_1Dim4 class encapsulates so(3,1) algebras using
the 4 dimensional (fundamental) representation.
|
sp2_RDim2 |
The sp2_RDim2 class encapsulates sp(2,R) algebras using
the 2 dimensional (fundamental) representation.
|
sp2_RDim3 |
The sp2_RDim3 class encapsulates sp(2,R) algebras using
the 3 dimensional (adjoint) representation.
|
su2Dim2 |
The su2Dim2 class encapsulates su(2) algebras using
the 2 dimensional (fundamental) representation.
|
su2Dim3 |
The su2Dim3 class encapsulates su(2) algebras using
the 3 dimensional (adjoint) representation.
|
su3Dim3 |
The su3Dim3 class encapsulates su(3) algebras using
the 3 dimensional (fundamental) representation.
|
Provides classes for algebras and their generalisations (vector spaces, modules).