Y. Aadel scite author profile

Y. Aadel

2Publications

12Citation Statements Received

55Citation Statements Given

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Qubits from Adinkra Graph Theory via Colored Toric Geometry

Aadel¹,

Belhaj²,

Benslimane³

et al. 2015

Preprint

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We develop a new approach to deal with qubit information systems using toric geometry and its relation to Adinkra graph theory. More precisely, we link three different subjects namely toric geometry, Adinkras and quantum information theory. This one to one correspondence may be explored to attack qubit system problems using geometry considered as a powerful tool to understand modern physics including string theory. Concretely, we examine in some details the cases of one, two, and three qubits, and we find that they are associated with CP 1 , CP 1 ×CP 1 and CP 1 ×CP 1 ×CP 1 toric varieties respectively. Using a geometric procedure referred to as colored toric geometry, we show that the qubit physics can be converted into a scenario handling toric data of such manifolds by help of Adinkra graph theory. Operations on toric information can produce universal quantum gates.

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Qubit Systems from Colored Toric Geometry and Hypercube Graph Theory ^*

Aadel¹,

Belhaj²,

Bensed³

et al. 2017

Commun. Theor. Phys.

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We develop a new geometric approach to deal with qubit information systems using colored graph theory. More precisely, we present a one to one correspondence between graph theory, and qubit systems, which may be explored to attack qubit information problems using toric geometry considered as a powerful tool to understand modern physics including string theory. Concretely, we examine in some details the cases of one, two, and three qubits, and we find that they are associated with CP1, CP1 × CP1 and CP1 × CP1 × CP1 toric varieties respectively. Using a geometric procedure referred to as a colored toric geometry, we show that the qubit physics can be converted into a scenario handling toric data of such manifolds by help of hypercube graph theory. Operations on toric information can produce universal quantum gates.

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Y. Aadel

Qubits from Adinkra Graph Theory via Colored Toric Geometry

Qubit Systems from Colored Toric Geometry and Hypercube Graph Theory ^*

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Y. Aadel

Qubits from Adinkra Graph Theory via Colored Toric Geometry

Qubit Systems from Colored Toric Geometry and Hypercube Graph Theory *

Contact Info

Product

Resources

About

Qubit Systems from Colored Toric Geometry and Hypercube Graph Theory ^*