Revision as of 17:46, 17 September 2013 by Nathaniel (talk | contribs) (Updated to v1.02 (Bosonic extensions are now faster to determine))
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Determines whether or not an operator has a symmetric extension

Other toolboxes required cvx
Related functions SymmetricInnerExtension

SymmetricExtension is a function that determines whether or not a given positive semidefinite operator has a symmetric extension. This function is extremely useful for showing that quantum states are entangled (see the Examples section). Various types of symmetric extensions can be looked for – by default, the extension that is looked for must be Bosonic and have positive partial transpose, but both of these restrictions can be removed.


  • EX = SymmetricExtension(X)
  • EX = SymmetricExtension(X,K)
  • EX = SymmetricExtension(X,K,DIM)
  • EX = SymmetricExtension(X,K,DIM,PPT)
  • EX = SymmetricExtension(X,K,DIM,PPT,BOS)
  • EX = SymmetricExtension(X,K,DIM,PPT,BOS,TOL)
  • [EX,WIT] = SymmetricExtension(X,K,DIM,PPT,BOS,TOL)

Argument descriptions

Input arguments

  • X: A positive semidefinite operator.
  • K (optional, default 2): The number of copies of the second subsystem in the desired symmetric extension.
  • DIM (optional, by default has both subsystems of equal dimension): A 1-by-2 vector containing the dimensions of the two subsystems that X acts on.
  • PPT (optional, default 1): A flag (either 1 or 0) that indicates whether or not the desired symmetric extension must have positive partial transpose.
  • BOS (optional, default 1): A flag (either 1 or 0) that indicates whether or not the desired symmetric extension must be Bosonic (i.e., have its range contained within the symmetric subspace).
  • TOL (optional, default eps^(1/4)): The numerical tolerance used throughout this script. It is recommended that this is left at the default value unless numerical problems arise and the script has difficulty determining whether or not X has a symmetric extension.

Output arguments

  • EX: A flag (either 1 or 0) indicating that X does or does not have a symmetric extension of the desired type.
  • WIT (optional): A witness that verifies that the answer provided by EX is correct. If EX = 1 (i.e., X has a symmetric extension) then WIT is such a symmetric extension. If EX = 0 (i.e., no symmetric extension exists) then WIT is an entanglement witness with trace(WIT*X) = -1 but trace(WIT*Y) >= 0 for all symmetrically extendable Y.


Please add some examples.