3,363 research outputs found
Stability of Quadratic Projection Methods
In this paper we discuss the stability of an alternative pollution-free
procedure for computing spectra. The main difference with the Galerkin method
lies in the fact that it gives rise to a weak approximate problem which is
quadratic in the spectral parameter, instead of linear. Previous accounts on
this new procedure can be found in Levitin and Shargorodsky (2002)
[math.SP/0212087] and Boulton (2006) [math.SP/0503126].Comment: 19 pages, 4 figures. In this updated version we have made a small
number of minor correction
Spectral behaviour of a simple non-self-adjoint operator
We investigate the spectrum of a typical non-self-adjoint differential
operator acting on \Lp(0,1)\otimes \mathbb{C}^2,
where is a constant matrix. We impose Dirichlet and Neumann
boundary conditions in the first and second coordinate respectively at both
ends of . For we explore
in detail the connection between the entries of and the spectrum of ,
we find necessary conditions to ensure similarity to a self-adjoint operator
and give numerical evidence that suggests a non-trivial spectral evolution.Comment: 42 pages, 6 figure
Sharp eigenvalue enclosures for the perturbed angular Kerr-Newman Dirac operator
A certified strategy for determining sharp intervals of enclosure for the
eigenvalues of matrix differential operators with singular coefficients is
examined. The strategy relies on computing the second order spectrum relative
to subspaces of continuous piecewise linear functions. For smooth perturbations
of the angular Kerr-Newman Dirac operator, explicit rates of convergence due to
regularity of the eigenfunctions are established. Existing benchmarks are
validated and sharpened by several orders of magnitude in the unperturbed
setting.Comment: 27 pages, 2 figures, 5 tables. Some errors fixe
Arguments towards the construction of a matrix model groundstate
We discuss the existence and uniqueness of wavefunctions for inhomogenoeus
boundary value problems associated to x^2y^2-type matrix model on a bounded
domain of R^2. Both properties involve a combination of the Cauchy-Kovalewski
Theorem and a explicit calculations.Comment: 3 pages, Latex Proceedings for the XIX Simposio Chileno de Fisica,
SOCHIFI 2014 Conference, 26-28 November 2014, held at Concepcion U., Chil
The supermembrane with central charges:(2+1)-D NCSYM, confinement and phase transition
The spectrum of the bosonic sector of the D=11 supermembrane with central
charges is shown to be discrete and with finite multiplicities, hence
containing a mass gap. The result extends to the exact theory our previous
proof of the similar property for the SU(N) regularised model and strongly
suggest discreteness of the spectrum for the complete Hamiltonian of the
supermembrane with central charges. This theory is a quantum equivalent to a
symplectic non-commutative super-Yang-Mills in 2+1 dimensions, where the
space-like sector is a Riemann surface of positive genus. In this context, it
is argued how the theory in 4D exhibits confinement in the N=1 supermembrane
with central charges phase and how the theory enters in the quark-gluon plasma
phase through the spontaneous breaking of the centre. This phase is interpreted
in terms of the compactified supermembrane without central charges.Comment: 33 pages, Latex. In this new version, several changes have been made
and various typos were correcte
On the groundstate of octonionic matrix models in a ball
In this work we examine the existence and uniqueness of the groundstate of a
SU(N)x G2 octonionic matrix model on a bounded domain of R^N. The existence and
uniqueness argument of the groundstate wavefunction follows from the
Lax-Milgram theorem. Uniqueness is shown by means of an explicit argument which
is drafted in some detail.Comment: Latex, 6 page
Massless ground state for a compact SU(2) matrix model in 4D
We show the existence and uniqueness of a massless supersymmetric ground
state wavefunction of a SU(2) matrix model in a bounded smooth domain with
Dirichlet boundary conditions. This is a gauge system and we provide a new
framework to analyze the quantum spectral properties of this class of
supersymmetric matrix models subject to constraints which can be generalized
for arbitrary number of colors.Comment: 12 pages, Latex. Somme clarifications. Minor changes. Version to
appear at NP
The ground state of the D=11 supermembrane and matrix models on compact regions
We establish a general framework for the analysis of boundary value problems
of matrix models at zero energy on compact regions. We derive existence and
uniqueness of ground state wavefunctions for the mass operator of the
regularized supermembrane theory, that is the supersymmetric
matrix model, on balls of finite radius. Our results rely on the
structure of the associated Dirichlet form and a factorization in terms of the
supersymmetric charges. They also rely on the polynomial structure of the
potential and various other supersymmetric properties of the system.Comment: Latex, 26 pages. We have added some comments at the introduction in
order to make it easier for the reader. Results of the paper unchange
Exploring the Decision Making of Police Officers Investigating Cases of Child Abuse within the Family
Identifying the cognitive processes underlying investigative decision making in cases of child abuse is vital for reducing risk to safeguarding and justice through improved training. Despite this, very little research has been conducted into this specialised field. This study begins to address this gap by intitially exploring the decision making of four British Senior Investigating Offciers (SIOs) during challenging cases of child abuse using Cognitive Task Analysis methods. Whilst a range of cognitive, situational and organisational factors were identified as impacting on the decision making of the investigators, safeguarding was considered to be ‘paramount’ despite conflict with traditional investigative goals. This study provides some insight into the investigative decision making processes of specialist teams, but should be considered as a pilot study which will inform the design and provide a rationale for the proposal of a larger, more comprehensive study into SIO decision making in cases of child abuse
On the spectrum of a matrix model for the D=11 supermembrane compactified on a torus with non-trivial winding
The spectrum of the Hamiltonian of the double compactified D=11 supermembrane
with non-trivial central charge or equivalently the non-commutative symplectic
super Maxwell theory is analyzed. In distinction to what occurs for the D=11
supermembrane in Minkowski target space where the bosonic potential presents
string-like spikes which render the spectrum of the supersymmetric model
continuous, we prove that the potential of the bosonic compactified membrane
with non-trivial central charge is strictly positive definite and becomes
infinity in all directions when the norm of the configuration space goes to
infinity. This ensures that the resolvent of the bosonic Hamiltonian is
compact. We find an upper bound for the asymptotic distribution of the
eigenvalues.Comment: 11 pages, LaTe
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