Metamath Proof Explorer

Theorem pjmf1

Description: The projector function maps one-to-one into the set of Hilbert space operators. (Contributed by NM, 24-Apr-2006) (New usage is discouraged.)

		Ref	Expression
	Assertion	pjmf1	\|- projh : CH -1-1-> ( ~H ^m ~H )

Proof

Step	Hyp	Ref	Expression
1		pjmfn	\|- projh Fn CH
2		pjhf	\|- ( x e. CH -> ( projh ` x ) : ~H --> ~H )
3		ax-hilex	\|- ~H e. _V
4	3 3	elmap	\|- ( ( projh ` x ) e. ( ~H ^m ~H ) <-> ( projh ` x ) : ~H --> ~H )
5	2 4	sylibr	\|- ( x e. CH -> ( projh ` x ) e. ( ~H ^m ~H ) )
6	5	rgen	\|- A. x e. CH ( projh ` x ) e. ( ~H ^m ~H )
7		ffnfv	\|- ( projh : CH --> ( ~H ^m ~H ) <-> ( projh Fn CH /\ A. x e. CH ( projh ` x ) e. ( ~H ^m ~H ) ) )
8	1 6 7	mpbir2an	\|- projh : CH --> ( ~H ^m ~H )
9		pj11	\|- ( ( x e. CH /\ y e. CH ) -> ( ( projh ` x ) = ( projh ` y ) <-> x = y ) )
10	9	biimpd	\|- ( ( x e. CH /\ y e. CH ) -> ( ( projh ` x ) = ( projh ` y ) -> x = y ) )
11	10	rgen2	\|- A. x e. CH A. y e. CH ( ( projh ` x ) = ( projh ` y ) -> x = y )
12		dff13	\|- ( projh : CH -1-1-> ( ~H ^m ~H ) <-> ( projh : CH --> ( ~H ^m ~H ) /\ A. x e. CH A. y e. CH ( ( projh ` x ) = ( projh ` y ) -> x = y ) ) )
13	8 11 12	mpbir2an	\|- projh : CH -1-1-> ( ~H ^m ~H )