Proper forcing axiom explained

In the mathematical field of set theory, the proper forcing axiom (PFA) is a significant strengthening of Martin's axiom, where forcings with the countable chain condition (ccc) are replaced by proper forcings.

Statement

is proper if for all regular uncountable cardinals

, forcing with P preserves stationary subsets of

[λ]^\omega

The proper forcing axiom asserts that if

is proper and

D_\alpha

is a dense subset of

for each

\alpha<\omega₁

, then there is a filter

G\subseteqP

such that

D_\alpha\capG

is nonempty for all

\alpha<\omega₁

The class of proper forcings, to which PFA can be applied, is rather large. For example, standard arguments show that if

is ccc or ω-closed, then

is proper. If

is a countable support iteration of proper forcings, then

is proper. Crucially, all proper forcings preserve

\aleph₁

Consequences

PFA directly implies its version for ccc forcings, Martin's axiom. In cardinal arithmetic, PFA implies

	\aleph₀
2

=\aleph₂

. PFA implies any two

\aleph₁

-dense subsets of R are isomorphic,^[1] any two Aronszajn trees are club-isomorphic,^[2] and every automorphism of the Boolean algebra

P(\omega)/fin

is trivial.^[3] PFA implies that the Singular Cardinals Hypothesis holds. An especially notable consequence proved by John R. Steel is that the axiom of determinacy holds in L(R), the smallest inner model containing the real numbers. Another consequence is the failure of square principles and hence existence of inner models with many Woodin cardinals.

Consistency strength

If there is a supercompact cardinal, then there is a model of set theory in which PFA holds. The proof uses the fact that proper forcings are preserved under countable support iteration, and the fact that if

\kappa

is supercompact, then there exists a Laver function for

\kappa

It is not yet known precisely how much large cardinal strength comes from PFA, and currently the best lower bound is a bit below the existence of a Woodin cardinal that is a limit of Woodin cardinals.

Other forcing axioms

The bounded proper forcing axiom (BPFA) is a weaker variant of PFA which instead of arbitrary dense subsets applies only to maximal antichains of size

\omega₁

. Martin's maximum is the strongest possible version of a forcing axiom.

Forcing axioms are viable candidates for extending the axioms of set theory as an alternative to large cardinal axioms.

The Fundamental Theorem of Proper Forcing

The Fundamental Theorem of Proper Forcing, due to Shelah, states that any countable support iteration of proper forcings is itself proper. This follows from the Proper Iteration Lemma, which states that whenever

(P_\alpha)_{\alpha\leq\kappa}

is a countable support forcing iteration based on

(Q_\alpha)_{\alpha<\kappa}

and

is a countable elementary substructure of

H_λ

for a sufficiently large regular cardinal

, and

P_\kappa\inN

and

\alpha\in\kappa\capN

and

(N,P_\alpha)

-generic and

forces

q\inP_\kappa/G


	P_\alpha

\cap

N[G
	P_\alpha

]

, then there exists

r\inP_\kappa

such that

-generic and the restriction of

P_\alpha

equals

and

forces the restriction of

[\alpha,\kappa)

to be stronger or equal to

This version of the Proper Iteration Lemma, in which the name

is not assumed to be in

, is due to Schlindwein.^[4]

The Proper Iteration Lemma is proved by a fairly straightforward induction on

\kappa

, and the Fundamental Theorem of Proper Forcing follows by taking

\alpha=0

References

Book: Jech, Thomas. Thomas Jech

. Set theory . Third millennium (revised and expanded). Springer. 2002. 3-540-44085-2. Thomas Jech . 1007.03002 . 10.1007/3-540-44761-X .

Book: Kunen, Kenneth . Kenneth Kunen

. Kenneth Kunen . Set theory . 1262.03001 . Studies in Logic . 34 . London . College Publications . 978-1-84890-050-9 . 2011 .

Book: Moore, Justin Tatch . Logic and foundations: the proper forcing axiom . 1258.03075 . Bhatia . Rajendra . Proceedings of the international congress of mathematicians (ICM 2010), Hyderabad, India, August 19–27, 2010. Vol. II: Invited lectures . Hackensack, NJ . World Scientific . 978-981-4324-30-4. 3–29 . 2011 .
Steel. John R.. Journal of Symbolic Logic. 2005. PFA implies AD^L(R). 70. 4. 1255–1296. John R. Steel. 10.2178/jsl/1129642125.

Notes and References

Moore (2011)
Abraham, U., and Shelah, S., Isomorphism types of Aronszajn trees (1985) Israel Journal of Mathematics (50) 75 -- 113
Moore (2011)
Schlindwein, C., "Consistency of Suslin's hypothesis, a non-special Aronszajn tree, and GCH", (1994), Journal of Symbolic Logic (59) pp. 1–29

Proper forcing axiom explained

Statement

Consequences

Consistency strength

Other forcing axioms

The Fundamental Theorem of Proper Forcing

See also

References

Notes and References