Joan Elias Miro scite author profile

Joan Elias Miro

3Publications

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253Citation Statements Given

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Bridging Positivity and S-matrix Bootstrap Bounds

Miro¹,

Guerrieri²,

Gumus³

2022

Preprint

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The main objective of this work is to isolate Effective Field Theory scattering amplitudes in the space of non-perturbative two-to-two amplitudes, using the S-matrix Bootstrap. We do so by introducing the notion of Effective Field Theory cutoff in the S-matrix Bootstrap approach. We introduce a number of novel numerical techniques and improvements both for the primal and the linearized dual approach. We perform a detailed comparison of the full unitarity bounds with those obtained using positivity and linearized unitarity. Moreover, we discuss the notion of Spin-Zero and UV dominance along the boundary of the allowed amplitude space by introducing suitable observables. Finally, we show that this construction also leads to novel bounds on operators of dimension less than or equal to six.

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Effective Hamiltonians and Counterterms for Hamiltonian Truncation

Miro¹,

Ingoldby²

2022

Preprint

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Hamiltonian Truncation with Larger Dimensions

Miro¹,

Ingoldby²

2021

Preprint

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Hamiltonian Truncation (HT) is a numerical approach for calculating observables in a Quantum Field Theory non-perturbatively. This approach can be applied to theories constructed by deforming a conformal field theory with a relevant operator of scaling dimension ∆. UV divergences arise when ∆ is larger than half of the spacetime dimension d. These divergences can be regulated by HT or by using a more conventional local regulator. In this work we show that extra UV divergences appear when using HT rather than a local regulator for ∆ d/2 + 1/4, revealing a striking breakdown of locality. Our claim is based on the analysis of conformal perturbation theory up to fourth order. As an example we compute the Casimir energy of d = 2 Minimal Models perturbed by operators whose dimensions take values on either side of the threshold d/2 + 1/4.

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Joan Elias Miro

Bridging Positivity and S-matrix Bootstrap Bounds

Effective Hamiltonians and Counterterms for Hamiltonian Truncation

Hamiltonian Truncation with Larger Dimensions

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