L. Garrido scite author profile

We construct a parametrization of deep-inelastic structure functions which retains information on experimental errors and correlations, and which does not introduce any theoretical bias while interpolating between existing data points. We generate a Monte Carlo sample of pseudo-data configurations and we train an ensemble of neural networks on them. This effectively provides us with a probability measure in the space of structure functions, within the whole kinematic region where data are available. This measure can then be used to determine the value of the structure function, its error, point-to-point correlations and generally the value and uncertainty of any function of the structure function itself. We apply this technique to the determination of the structure function F 2 of the proton and deuteron, and a precision determination of the isotriplet combination F 2 [p-d]. We discuss in detail these results, check their stability and accuracy, and make them available in various formats for applications.April 2002

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Finite-temperatureTmatrix in a real-time formalism

Canivell

Garrido

Miguel

et al. 1978

Phys. Rev. A

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Dynamical pictures and causality in finite temperature Green's functions

Garrido

Miguel

1977

Physics Letters A

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Summary and theoretical basis

Reya¹,

Hollik²,

Neerven³

et al. 1990

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Hardware implementation of a neural network for high energy physics application

Carrabina

Lisa

Gaitan

et al. 1993

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L. Garrido

Neural network parametrization of deep-inelastic structure functions

Finite-temperatureTmatrix in a real-time formalism

Dynamical pictures and causality in finite temperature Green's functions

Summary and theoretical basis

Hardware implementation of a neural network for high energy physics application

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