Zachary Lewis scite author profile

Abstract. We discuss the properties of Galois Field Quantum Mechanics constructed on a vector space over the finite Galois field GF (q). In particular, we look at 2-level systems analogous to spin, and discuss how SO(3) rotations could be embodied in such a system. We also consider two-particle 'spin' correlations and show that the Clauser-Horne-Shimony-Holt (CHSH) inequality is nonetheless not violated in this model.

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On the Minimal Length Uncertainty Relation and the Foundations of String Theory

Chang

Lewis

Minić

et al. 2011

Advances in High Energy Physics

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We review our work on the minimal length uncertainty relation as suggested by perturbative string theory. We discuss simple phenomenological implications of the minimal length uncertainty relation and then argue that the combination of the principles of quantum theory and general relativity allow for a dynamical energy-momentum space. We discuss the implication of this for the problem of vacuum energy and the foundations of non-perturbative string theory.

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Bell's Inequalities, Superquantum Correlations, and String Theory

Chang

Lewis

Minić

et al. 2011

Advances in High Energy Physics

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We offer an interpretation of super-quantum correlations in terms of a "doubly" quantum theory. We argue that string theory, viewed as a quantum theory with two deformation parameters, the string tension α ′ and the string coupling constant gs, is such a super-quantum theory, one that transgresses the usual quantum violations of Bell's inequalities. We also discuss the → ∞ limit of quantum mechanics in this context. As a super-quantum theory, string theory should display distinct experimentally observable super-correlations of entangled stringy states.

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Galois Field Quantum Mechanics

et al. 2013

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Position and momentum uncertainties of the normal and inverted harmonic oscillators under the minimal length uncertainty relation

Lewis

Takeuchi

2011

Phys. Rev. D

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We analyze the position and momentum uncertainties of the energy eigenstates of the harmonic oscillator in the context of a deformed quantum mechanics, namely, that in which the commutator between the position and momentum operators is given by [x,p] 2 ). This deformed commutation relation leads to the minimal length uncertainty relation ∆x ≥ ( /2)(1/∆p + β∆p), which implies that ∆x ∼ 1/∆p at small ∆p while ∆x ∼ ∆p at large ∆p. We find that the uncertainties of the energy eigenstates of the normal harmonic oscillator (m > 0), derived in Ref.[1], only populate the ∆x ∼ 1/∆p branch. The other branch, ∆x ∼ ∆p, is found to be populated by the energy eigenstates of the 'inverted' harmonic oscillator (m < 0). The Hilbert space in the 'inverted' case admits an infinite ladder of positive energy eigenstates provided that ∆xmin = √ β > √ 2 [ 2 /k|m| ] 1/4 . Correspondence with the classical limit is also discussed.

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Zachary Lewis

Spin and rotations in Galois field quantum mechanics

On the Minimal Length Uncertainty Relation and the Foundations of String Theory

Bell's Inequalities, Superquantum Correlations, and String Theory

Galois Field Quantum Mechanics

Position and momentum uncertainties of the normal and inverted harmonic oscillators under the minimal length uncertainty relation

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