AbstractWe propose a new guiding principle for phenomenology: special geometry in the vacuum space. New algorithmic methods which efficiently compute geometric properties of the vacuum space of N=1 supersymmetric gauge theories are described. We illustrate the technique on subsectors of the MSSM. The fragility of geometric structure that we find in the moduli space motivates phenomenologically realistic deformations of the superpotential, while arguing against others. Special geometry in the vacuum may therefore signal the presence of string physics underlying the low-energy effective theory
We explain the origin of the Veronese surface in the vacuum moduli space geometry of the MSSM electr...
We show that a unique, most probable and stable solution for the wavefunction of the universe, with ...
We study the vacuum geometry prescribed by the gauge invariant operators of the minimal supersymmetr...
We propose a new guiding principle for phenomenology: special geometry in the vacuum space. New algo...
AbstractWe propose a new guiding principle for phenomenology: special geometry in the vacuum space. ...
We propose a new principle for phenomenology: special geometry in the vacuum space. New algorithmic ...
Using techniques of algorithmic algebraic geometry, we present a new and efficient method for explic...
Using techniques of algorithmic algebraic geometry, we present a new and efficient method for explic...
We investigate the vacuum moduli space of supersymmetric gauge theories en masse by probing the spac...
We investigate the vacuum moduli space of supersymmetric gauge theories en masse by probing the spac...
We use string theory constructions towards the generalisation of the supersymmetric standard model o...
I contemplate the possibility that the mismatch between the maximally symmetric point (the free ferm...
We present a complete classification of the vacuum geometries of all renormalizable superpotentials ...
We propose a new computational method to understand the vacuum moduli space of (supersymmetric) fiel...
String theory is the leading contemporary framework to explore the synthesis of quantum mechanics wi...
We explain the origin of the Veronese surface in the vacuum moduli space geometry of the MSSM electr...
We show that a unique, most probable and stable solution for the wavefunction of the universe, with ...
We study the vacuum geometry prescribed by the gauge invariant operators of the minimal supersymmetr...
We propose a new guiding principle for phenomenology: special geometry in the vacuum space. New algo...
AbstractWe propose a new guiding principle for phenomenology: special geometry in the vacuum space. ...
We propose a new principle for phenomenology: special geometry in the vacuum space. New algorithmic ...
Using techniques of algorithmic algebraic geometry, we present a new and efficient method for explic...
Using techniques of algorithmic algebraic geometry, we present a new and efficient method for explic...
We investigate the vacuum moduli space of supersymmetric gauge theories en masse by probing the spac...
We investigate the vacuum moduli space of supersymmetric gauge theories en masse by probing the spac...
We use string theory constructions towards the generalisation of the supersymmetric standard model o...
I contemplate the possibility that the mismatch between the maximally symmetric point (the free ferm...
We present a complete classification of the vacuum geometries of all renormalizable superpotentials ...
We propose a new computational method to understand the vacuum moduli space of (supersymmetric) fiel...
String theory is the leading contemporary framework to explore the synthesis of quantum mechanics wi...
We explain the origin of the Veronese surface in the vacuum moduli space geometry of the MSSM electr...
We show that a unique, most probable and stable solution for the wavefunction of the universe, with ...
We study the vacuum geometry prescribed by the gauge invariant operators of the minimal supersymmetr...