Flux vacua and compactification on smooth compact toric varieties / Vides avec flux et compactification sur des variétés toriques compactes

Terrisse, Robin

16 September 2019

L’étude des vides avec flux est une étape primordiale afin de mieux comprendre la compactification en théorie des cordes ainsi que ses conséquences phénoménologiques. En présence de flux, l’espace interne ne peut plus être Calabi-Yau, mais admet tout de même une structure SU(3) qui devient un outil privilégié. Après une introduction aux notions géométriques nécessaires, cette thèse examine le rôle des flux dans la compactification supersymétrique sous différents angles. Nous considérons tout d’abord des troncations cohérentes de la supergravité IIA. Nous montrons alors que des condensats fermioniques peuvent aider à supporter des flux et générer une contribution positive à la constante cosmologique. Ces troncations admettent donc des vides de Sitter qu’il serait autrement très difficile d’obtenir, si ce n’est impossible. L’argument est tout d’abord employé avec des condensats de dilatini puis améliorer en suggérant un mécanisme pour générer des condensats de gravitini à partir d’instantons gravitationnels. Ensuite l’attention se tourne sur les branes et leur comportement sous T-dualité non abélienne. Nous calculons les configurations duales à certaines solutions avec D branes de la supergravité de type II, et examinons les flux ainsi que leurs charges afin d’identifier les branes après dualité. La solution supersymétrique avec brane D2 est étudiée plus en détails en vérifiant explicitement les équations sur les spineurs généralisés, puis en discutant de la possibilité d’une déformation massive. Le dernier chapitre fournit une construction systématique de structures SU(3) sur une large classe de variétés toriques compactes. Cette construction définit un fibré en sphère au-dessus d’une variété torique 2d quelconque, mais fonctionne tout aussi bien sur une base Kähler-Einstein / The study of flux vacua is a primordial step in the understanding of string compactifications and their phenomenological properties. In presence of flux the internal manifold ceases to be Calabi-Yau, but still admits an SU(3) structure which becomes thus the preferred framework. After introducing the relevant geometrical notions this thesis explores the role that fluxes play in supersymmetric compactification through several approaches. At first consistent truncations of type IIA supergravity are considered. It is shown that fermionic condensates can help support fluxes and generate a positive contribution to the cosmological constant. These truncations thus admit de Sitter vacua which are otherwise extremely difficult to get, if not impossible. The argument is initially performed with dilatini condensates and then improved by suggesting a mechanism to generate gravitini condensates from gravitational instantons. Then the focus shifts towards branes and their behavior under non abelian T-duality. The duals of several D-brane solutions of type II supergravity are computed and the branes are tracked down by investigating the fluxes and the charges they carry. The supersymmetric D2 brane is further studied by checking explicitly the generalized spinor equations and discussing the possibility of a massive deformation. The last chapter gives a systematic construction of SU(3) structures on a wide class of compact toric varieties. The construction defines a sphere bundle on an arbitrary two-dimensional toric variety but also works when the base is Kähler-Einstein

Compactification avec flux

Structure SU(3)

Troncation cohérente

Condensat fermionique

T-dualité non abélienne

D brane

Vide de Sitter

Variété torique

Flux compactification

SU(3) structure

Consistent truncation

Fermionic condensate

Non abelian T-duality

D brane

De Sitter vacua

Toric Variety

530

Amplitudes in QFT and CFT

Faller, Josua

11 November 2019

In dieser Dissertationsschrift werden Amplituden in QFTs und CFTs studiert. Zunächst wird mittels der »double copy«-Methode gezeigt, inwiefern Integranden von Gravitationsamplituden aus Integranden von Eichtheorien gewonnen werden können. Um diese Methode anzuwenden, bedarf es einer konkreten Darstellung der Eichtheorieintegranden, sodass die kinematischen Faktoren des Integranden die gleichen algebraischen Relationen erfüllen wie die Strukturkonstanten der Eichtheorie. Mithilfe dieser Methode werden Vierpunktsamplituden in N = 0 Supergravitation gekoppelt mit Yang-Mills in erster Ordnung der Störungsreihe berechnet, welche als asymptotische Zustände Gravitonen oder Gluonen positiver Helizität enthalten. Das Analogon der Amplituden in konform invarianten Theorien, genannt Mellinamplituden, wird anschließend im zweiten Teil diskutiert. Nicht nur durch ihre Beschreibung als Funktionen »lorentzinvarianter« Variablen, welche durch eine Art »LSZ-Reduktion« gewonnen werden, weisen Mellinamplituden eine formal heuristische Ähnlichkeit zu Amplituden auf, sondern auch können alle physikalischen Größen einer CFT aus ihnen berechnet werden. D.h., ebenso wie Amplituden einen Streuprozess vollständig charakterisieren, ist eine CFT eindeutig über ihre Mellinamplituden festgelegt. Fermionische Mellinamplituden wurden zum ersten Mal, in der Veröffentlichung worauf diese Dissertationsschrift basiert, studiert. Jede Komponente der fermionischen Mellinamplituden ist einer bestimmen Tensorstruktur zugeordnet, deren Polstruktur im einzelnen diskutiert wird. Es werden die analytische Eigenschaften der fermionischen Mellinamplituden der gemischten Vierpunktskorrelationsfunktion von zwei Fermionen und Skalaren, sowie von vier Fermionen studiert und darauffolgend werden diese Resultate durch störungstheoretische Rechnungen bei schwacher und starker Kopplung bestätigt. / In this thesis, amplitudes in QFT and CFT are studied. In the first chapter a modern technique to obtain integrands for gravity theories from gauge theory integrands is discussed. This formalism is called the doubly copy method and it can be applied if the gauge theory integrand is given in a specific representation where the kinematic numerator factors obey the same algebraic relations as the colour factors, e.g. the Jacobi identity. This method is applied to obtain the positive helicity sector of amplitudes in N = 0 supergravity coupled to Yang-Mills with external gravitons and gluons at one loop. Only the special case of four external particles is studied. Partial results are also obtained for pure Einstein-Yang-Mills amplitudes, where the axion and dilaton as virtual particles have been removed. In the second chapter, the natural analogue of amplitudes in CFTs is studied. These mathematical objects are called Mellin amplitudes. Mellin amplitudes can be understood as the CFT analogue of QFT amplitudes, because they are functions of “Lorentz invariant” quantities of their “momenta”. In addition all the CFT data is encoded in the Mellin amplitudes as all the data of a scattering process is included in usual amplitudes. The study of fermionic Mellin amplitudes has been carried out for the first time in the associated publication. These Mellin amplitudes have several components each associated to a certain tensor structure. The analytic properties of fermionic Mellin amplitudes corresponding to mixed four fermion-scalar conformal correlators and four fermion conformal correlators are deduced and finally these general results are confirmed by explicit perturbative calculations at weak and strong coupling.

Gravitationsamplitude

Einstein-Yang-Mills-Theorie

double-copy Methode

Mellin amplitude

fermionische Korrelatoren

gravity amplitude

Einstein-Yang-Mills theory

double copy method

Mellin amplitude

fermionic correlators

530 Physik

UO 4000

UO 4055

ddc:530

Field Theoretic Lagrangian From Off-shell Supermultiplet Gauge Quotients

Katona, Gregory

01 January 2013

Recent efforts to classify off-shell representations of supersymmetry without a central charge have focused upon directed, supermultiplet graphs of hypercubic topology known as Adinkras. These encodings of Super Poincare algebras, depict every generator of a chosen supersymmetry as a node-pair transformtion between fermionic bosonic component fields. This research thesis is a culmination of investigating novel diagrammatic sums of gauge-quotients by supersymmetric images of other Adinkras, and the correlated building of field theoretic worldline Lagrangians to accommodate both classical and quantum venues. We find Ref [40], that such gauge quotients do not yield other stand alone or "proper" Adinkras as afore sighted, nor can they be decomposed into supermultiplet sums, but are rather a connected "Adinkraic network". Their iteration, analogous to Weyl's construction for producing all finite-dimensional unitary representations in Lie algebras, sets off chains of algebraic paradigms in discrete-graph and continuous-field variables, the links of which feature distinct, supersymmetric Lagrangian templates. Collectively, these Adiankraic series air new symbolic genera for equation to phase moments in Feynman path integrals. Guided in this light, we proceed by constructing Lagrangians actions for the N = 3 supermultiplet YI /(iDI X) for I = 1, 2, 3, where YI and X are standard, Salam-Strathdee superfields: YI fermionic and X bosonic. The system, bilinear in the component fields exhibits a total of thirteen free parameters, seven of which specify Zeeman-like coupling to external background (magnetic) fluxes. All but special subsets of this parameter space describe aperiodic oscillatory responses, some of which are found to be surprisingly controlled by the golden ratio, [phi] = 1.61803, Ref [52]. It is further determined that these Lagrangians allow an N = 3 - > 4 supersymmetric extension to the Chiral-Chiral and Chiral-twistedChiral multiplet, while a subset admits two inequivalent such extensions. In a natural proiii gression, a continuum of observably and usefully inequivalent, finite-dimensional off-shell representations of worldline N = 4 extended supersymmetry are explored, that are variate from one another but in the value of a tuning parameter, Ref [53]. Their dynamics turns out to be nontrivial already when restricting to just bilinear Lagrangians. In particular, we find a 34-parameter family of bilinear Lagrangians that couple two differently tuned supermultiplets to each other and to external magnetic fluxes, where the explicit parameter dependence is unremovable by any field redefinition and is therefore observable. This offers the evaluation of X-phase sensitive, off-shell path integrals with promising correlations to group product decompositions and to deriving source emergences of higher-order background flux-forms on 2-dimensional manifolds, the stacks of which comprise space-time volumes. Application to nonlinear sigma models would naturally follow, having potential use in M- and F- string theories.

Supersymmetry

superspace

supermultiplet

adinkra

automata

adiankraic tensor product decomposition

group theoretic

lorentz group

su(2)

so(3)

gauge quotient

isomorphism

surjective

bijective

image mapping

indefinite adiankraic network sequence

super poincare group

haag lopuszanski sohnius theorem

string theory

m theory

f theory

nonlinear sigma model

(numerical) algebraic geometry

algebraic paradigms

worldsheet

worldsheet stacks

supersymmetric lagrangians

ansatz templates

super potentials

quantum mechanics

field theory

fermionic

bosonic

(super) zeeman

background flux fields

supergravity

superfields

young tableaux

susy tableaux

controlled chaos

supercharge continuum

chiral

chiral twisted chiral

Physics