Javascript must be enabled to continue!

IDEAL PROJECTIONS AND FORCING PROJECTIONS

AbstractIt is well known that saturation of ideals is closely related to the “antichain-catching” phenomenon from Foreman–Magidor–Shelah [10]. We consider several antichain-catching properties that are weaker than saturation, and prove:(1)If${\cal I}$is a normal ideal on$\omega _2 $which satisfiesstationary antichain catching, then there is an inner model with a Woodin cardinal;(2)For any$n \in \omega $, it is consistent relative to large cardinals that there is a normal ideal${\cal I}$on$\omega _n $which satisfiesprojective antichain catching, yet${\cal I}$is not saturated (or even strong). This provides a negative answer to Open Question number 13 from Foreman’s chapter in the Handbook of Set Theory ([7]).

Cambridge University Press (CUP)

SEAN COX MARTIN ZEMAN

The Journal of Symbolic Logic

2014

Title: IDEAL PROJECTIONS AND FORCING PROJECTIONS

Description:

AbstractIt is well known that saturation of ideals is closely related to the “antichain-catching” phenomenon from Foreman–Magidor–Shelah [10].

We consider several antichain-catching properties that are weaker than saturation, and prove:(1)If${\cal I}$is a normal ideal on$\omega _2 $which satisfiesstationary antichain catching, then there is an inner model with a Woodin cardinal;(2)For any$n \in \omega $, it is consistent relative to large cardinals that there is a normal ideal${\cal I}$on$\omega _n $which satisfiesprojective antichain catching, yet${\cal I}$is not saturated (or even strong).

This provides a negative answer to Open Question number 13 from Foreman’s chapter in the Handbook of Set Theory ([7]).

Back

<p>Radiative forcing from stratospheric volcanic sulfate aerosols is a key driver of climate variability. However, climate change may also impact volcanic forcing whi...

Advances and Applications in Discrete Mathematics

A zero forcing set in a graph is called a dom-forcing set if is also a dominating set of . The minimum cardinality of such a set is known as the dom-forcing number of the gr...

The response of a general circulation model to cloud longwave radiative forcing. I: Introduction and initial experiments

AbstractA new version of the NCAR Community Climate Model (CCM1) is used to study the effect of cloud radiative forcing on model simulations. Previous attempts to determine the rol...

The global patterns of instantaneous CO2 forcing at the top-of-atmosphere and surface

The radiative forcing of carbon dioxide (CO2) at the top-of-atmosphere (TOA) has a rich spatial structure and has implications for large-scale climate changes, such as poleward ene...

Historically consistent mass loss projections of the Greenland ice sheet

Abstract. Mass loss from the Greenland ice sheet is presently a significant factor for global sea-level rise and is expected to increase under continued Arctic warming. As sea-leve...

New forcing scheme to sustain particle-laden homogeneous and isotropic turbulence

This paper evaluates the effect of forcing to sustain turbulence on the transfer function of the fluid with particles suspended in a homogeneous and isotropic flow. As mentioned by...

The Forcing Circular Number of a Graph

Let S be a cr-set of graph G and let G be a connected graph. If S is the only cr-set that contains T, then a subset T⊆S is referred to be a forcing subset for S. A minimum forcing ...

Model calculations of non-cloud radiative forcing due to anthropogenic sulphate aerosol

Anthropogenic sulphate aerosol particles scatter incoming solar radiation thereby perturbing the radiative budget, hence climate. We have used a three dimensional radiative transfe...

Email:
Password:

Email:

IDEAL PROJECTIONS AND FORCING PROJECTIONS

Related Results