Measure of Quantum Complexity in Neutrino Oscillations

Khushboo Dixit; S. Shajidul Haque; Soebur Razzaque

Measure of Quantum Complexity in Neutrino Oscillations

Khushboo Dixit, S. Shajidul Haque, Soebur Razzaque

Physics

Research output: Contribution to journal › Conference article › peer-review

Abstract

Neutrino flavor oscillations, a fundamental process in particle physics, involve the transition between different neutrino flavors, governed by a complex relationship between mass and flavor eigenstates. Traditionally, probabilistic measures are used to study neutrino oscillations, but recent research suggests that quantum complexity, specifically quantum spread complexity, offers deeper insights, especially regarding charge-parity (CP) violation. Our work shows that quantum complexity can predict CP-violating phases that align with experimental observations from T2K and NOvA. This approach provides a new connection between quantum information theory and particle physics, revealing the potential of complexity in neutrino studies.

Original language	English
Article number	229
Journal	Proceedings of Science
Volume	476
Publication status	Published - 29 Apr 2025
Event	42nd International Conference on High Energy Physics, ICHEP 2024 - Prague, Czech Republic Duration: 18 Jul 2024 → 24 Jul 2024

ASJC Scopus subject areas

Multidisciplinary

Cite this

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title = "Measure of Quantum Complexity in Neutrino Oscillations",

abstract = "Neutrino flavor oscillations, a fundamental process in particle physics, involve the transition between different neutrino flavors, governed by a complex relationship between mass and flavor eigenstates. Traditionally, probabilistic measures are used to study neutrino oscillations, but recent research suggests that quantum complexity, specifically quantum spread complexity, offers deeper insights, especially regarding charge-parity (CP) violation. Our work shows that quantum complexity can predict CP-violating phases that align with experimental observations from T2K and NOvA. This approach provides a new connection between quantum information theory and particle physics, revealing the potential of complexity in neutrino studies.",

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AU - Dixit, Khushboo

AU - Haque, S. Shajidul

AU - Razzaque, Soebur

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Y1 - 2025/4/29

N2 - Neutrino flavor oscillations, a fundamental process in particle physics, involve the transition between different neutrino flavors, governed by a complex relationship between mass and flavor eigenstates. Traditionally, probabilistic measures are used to study neutrino oscillations, but recent research suggests that quantum complexity, specifically quantum spread complexity, offers deeper insights, especially regarding charge-parity (CP) violation. Our work shows that quantum complexity can predict CP-violating phases that align with experimental observations from T2K and NOvA. This approach provides a new connection between quantum information theory and particle physics, revealing the potential of complexity in neutrino studies.

AB - Neutrino flavor oscillations, a fundamental process in particle physics, involve the transition between different neutrino flavors, governed by a complex relationship between mass and flavor eigenstates. Traditionally, probabilistic measures are used to study neutrino oscillations, but recent research suggests that quantum complexity, specifically quantum spread complexity, offers deeper insights, especially regarding charge-parity (CP) violation. Our work shows that quantum complexity can predict CP-violating phases that align with experimental observations from T2K and NOvA. This approach provides a new connection between quantum information theory and particle physics, revealing the potential of complexity in neutrino studies.

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AN - SCOPUS:105004816396

SN - 1824-8039

VL - 476

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 229

T2 - 42nd International Conference on High Energy Physics, ICHEP 2024

Y2 - 18 July 2024 through 24 July 2024

ER -

Measure of Quantum Complexity in Neutrino Oscillations

Abstract

ASJC Scopus subject areas

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