We study the effects of quenching in N=1 Super-Yang-Mills theory. While supersymmetry is broken, the Lagrangian acquires a new flavour U(1 |1) symmetry. The anomaly structure thus differs from the unquenched case. We derive the corresponding low-energy effective Lagrangian. As a consequence, we predict the mass splitting expected in numerical simulations for particles belonging to the lowest-lying supermultiplet. An estimate of the systematic error due to quenching follows
Working with a gauge coupling field in a linear superfield, we construct effective Lagrangians for N...
It is conjectured that flavor mixing furnishes a universal mechanism for the spontaneous breaking of...
An inverted mass hierarchy in the squark sector, as in so-called “natural supersymmetry”, requires n...
We study the effects of quenching in Super-Yang-Mills theory. While supersymmetry is broken, the lag...
Abstract: We explore supersymmetric quantum quenches of the mass and coupling con-stants in the N = ...
The authors point out that in order to ensure an efficient 'super-GIM' suppression of flavour-changi...
We present a scenario wherein the anomalous U(1) D-term of string origin triggers supersymmetry brea...
We discuss the phenomenology of supersymmetric models in which supersymmetry breaking terms are indu...
We present a general review about the N=1 supersymmetric SU(Nc) Yang-Mills on the lattice focusing o...
The non-perturbative properties of supersymmetric theories are of interest for elementary particle p...
We present a scenario wherein the anomalous U(1) D-term of string origin triggers supersymmetry brea...
We analyse quench processes in two dimensional quantum field theories with infinite number of conser...
We investigate N = 1 supersymmetric gauge theories where monopole condensation triggers supersymmetr...
We study how, as a result of the scanning of supersymmetry breaking during the cosmological evolutio...
An inverted mass hierarchy in the squark sector, as in so-called “natural supersymmetry”, requires n...
Working with a gauge coupling field in a linear superfield, we construct effective Lagrangians for N...
It is conjectured that flavor mixing furnishes a universal mechanism for the spontaneous breaking of...
An inverted mass hierarchy in the squark sector, as in so-called “natural supersymmetry”, requires n...
We study the effects of quenching in Super-Yang-Mills theory. While supersymmetry is broken, the lag...
Abstract: We explore supersymmetric quantum quenches of the mass and coupling con-stants in the N = ...
The authors point out that in order to ensure an efficient 'super-GIM' suppression of flavour-changi...
We present a scenario wherein the anomalous U(1) D-term of string origin triggers supersymmetry brea...
We discuss the phenomenology of supersymmetric models in which supersymmetry breaking terms are indu...
We present a general review about the N=1 supersymmetric SU(Nc) Yang-Mills on the lattice focusing o...
The non-perturbative properties of supersymmetric theories are of interest for elementary particle p...
We present a scenario wherein the anomalous U(1) D-term of string origin triggers supersymmetry brea...
We analyse quench processes in two dimensional quantum field theories with infinite number of conser...
We investigate N = 1 supersymmetric gauge theories where monopole condensation triggers supersymmetr...
We study how, as a result of the scanning of supersymmetry breaking during the cosmological evolutio...
An inverted mass hierarchy in the squark sector, as in so-called “natural supersymmetry”, requires n...
Working with a gauge coupling field in a linear superfield, we construct effective Lagrangians for N...
It is conjectured that flavor mixing furnishes a universal mechanism for the spontaneous breaking of...
An inverted mass hierarchy in the squark sector, as in so-called “natural supersymmetry”, requires n...
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