117,970 research outputs found
The BF Formalism for QCD and Quark Confinement
Using the BF version of pure Yang-Mills, it is possible to find a covariant
representation of the 't Hooft magnetic flux operator. In this framework, 't
Hooft's pioneering work on confinement finds an explicit realization in the
continuum. Employing the Abelian projection gauge we compute the expectation
value of the magnetic variable and find the expected perimeter law. We also
check the area law behaviour for the Wilson loop average and compute the string
tension which turns out to be of the right order of magnitude.Comment: Various changes, version to appear in Nucl.Phys.
Formal Analysis of Linear Control Systems using Theorem Proving
Control systems are an integral part of almost every engineering and physical
system and thus their accurate analysis is of utmost importance. Traditionally,
control systems are analyzed using paper-and-pencil proof and computer
simulation methods, however, both of these methods cannot provide accurate
analysis due to their inherent limitations. Model checking has been widely used
to analyze control systems but the continuous nature of their environment and
physical components cannot be truly captured by a state-transition system in
this technique. To overcome these limitations, we propose to use
higher-order-logic theorem proving for analyzing linear control systems based
on a formalized theory of the Laplace transform method. For this purpose, we
have formalized the foundations of linear control system analysis in
higher-order logic so that a linear control system can be readily modeled and
analyzed. The paper presents a new formalization of the Laplace transform and
the formal verification of its properties that are frequently used in the
transfer function based analysis to judge the frequency response, gain margin
and phase margin, and stability of a linear control system. We also formalize
the active realizations of various controllers, like
Proportional-Integral-Derivative (PID), Proportional-Integral (PI),
Proportional-Derivative (PD), and various active and passive compensators, like
lead, lag and lag-lead. For illustration, we present a formal analysis of an
unmanned free-swimming submersible vehicle using the HOL Light theorem prover.Comment: International Conference on Formal Engineering Method
Capturing Hiproofs in HOL Light
Hierarchical proof trees (hiproofs for short) add structure to ordinary proof
trees, by allowing portions of trees to be hierarchically nested. The
additional structure can be used to abstract away from details, or to label
particular portions to explain their purpose. In this paper we present two
complementary methods for capturing hiproofs in HOL Light, along with a tool to
produce web-based visualisations. The first method uses tactic recording, by
modifying tactics to record their arguments and construct a hierarchical tree;
this allows a tactic proof script to be modified. The second method uses proof
recording, which extends the HOL Light kernel to record hierachical proof trees
alongside theorems. This method is less invasive, but requires care to manage
the size of the recorded objects. We have implemented both methods, resulting
in two systems: Tactician and HipCam
An Invitation to Higher Gauge Theory
In this easy introduction to higher gauge theory, we describe parallel
transport for particles and strings in terms of 2-connections on 2-bundles.
Just as ordinary gauge theory involves a gauge group, this generalization
involves a gauge '2-group'. We focus on 6 examples. First, every abelian Lie
group gives a Lie 2-group; the case of U(1) yields the theory of U(1) gerbes,
which play an important role in string theory and multisymplectic geometry.
Second, every group representation gives a Lie 2-group; the representation of
the Lorentz group on 4d Minkowski spacetime gives the Poincar\'e 2-group, which
leads to a spin foam model for Minkowski spacetime. Third, taking the adjoint
representation of any Lie group on its own Lie algebra gives a 'tangent
2-group', which serves as a gauge 2-group in 4d BF theory, which has
topological gravity as a special case. Fourth, every Lie group has an 'inner
automorphism 2-group', which serves as the gauge group in 4d BF theory with
cosmological constant term. Fifth, every Lie group has an 'automorphism
2-group', which plays an important role in the theory of nonabelian gerbes. And
sixth, every compact simple Lie group gives a 'string 2-group'. We also touch
upon higher structures such as the 'gravity 3-group' and the Lie 3-superalgebra
that governs 11-dimensional supergravity.Comment: 60 pages, based on lectures at the 2nd School and Workshop on Quantum
Gravity and Quantum Geometry at the 2009 Corfu Summer Institut
UTP2: Higher-Order Equational Reasoning by Pointing
We describe a prototype theorem prover, UTP2, developed to match the style of
hand-written proof work in the Unifying Theories of Programming semantical
framework. This is based on alphabetised predicates in a 2nd-order logic, with
a strong emphasis on equational reasoning. We present here an overview of the
user-interface of this prover, which was developed from the outset using a
point-and-click approach. We contrast this with the command-line paradigm that
continues to dominate the mainstream theorem provers, and raises the question:
can we have the best of both worlds?Comment: In Proceedings UITP 2014, arXiv:1410.785
Quasi-Hamiltonian bookkeeping of WZNW defects
We interpret the chiral WZNW model with general monodromy as an infinite
dimensional quasi-Hamiltonian dynamical system. This interpretation permits to
explain the totality of complicated cross-terms in the symplectic structures of
various WZNW defects solely in terms of the single concept of the
quasi-Hamiltonian fusion. Translated from the WZNW language into that of the
moduli space of flat connections on Riemann surfaces, our result gives a
compact and transparent characterisation of the symplectic structure of the
moduli space of flat connections on a surface with k handles, n boundaries and
m Wilson lines.Comment: 22 page
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