Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information

Rhea P. Fernandes; Andrew J. Pizzimenti; Christos N. Gagatsos; Joseph M. Lukens

doi:10.1364/quantum.2025.qm2c.2

Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information

Rhea P. Fernandes
, Andrew J. Pizzimenti
, Christos N. Gagatsos
, Joseph M. Lukens

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

A major unexplored question of quantum state tomography is the relative efficiency of homodyne versus heterodyne measurements for reconstructing non-Gaussian states. We introduce a Fisher information-based formalism to answer this question, tested through simulated experiments.

Original language	English (US)
Title of host publication	Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition
Publisher	Optical Society of America
ISBN (Electronic)	9781957171487
DOIs	https://doi.org/10.1364/quantum.2025.qm2c.2
State	Published - 2025
Externally published	Yes
Event	Optica Quantum 2.0 Conference and Exhibition, QUANTUM 2025 - San Francisco, United States Duration: Jun 1 2025 → Jun 5 2025

Publication series

Name	Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition

Conference

Conference	Optica Quantum 2.0 Conference and Exhibition, QUANTUM 2025
Country/Territory	United States
City	San Francisco
Period	6/1/25 → 6/5/25

ASJC Scopus subject areas

General Computer Science
Space and Planetary Science
Control and Systems Engineering
Electrical and Electronic Engineering
Electronic, Optical and Magnetic Materials
Instrumentation

Access to Document

10.1364/quantum.2025.qm2c.2

Cite this

Fernandes, R. P., Pizzimenti, A. J., Gagatsos, C. N., & Lukens, J. M. (2025). Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information. In Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition Article QM2C.2 (Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition). Optical Society of America. https://doi.org/10.1364/quantum.2025.qm2c.2

Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information. / Fernandes, Rhea P.; Pizzimenti, Andrew J.; Gagatsos, Christos N. et al.
Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition. Optical Society of America, 2025. QM2C.2 (Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Fernandes, RP, Pizzimenti, AJ, Gagatsos, CN & Lukens, JM 2025, Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information. in Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition., QM2C.2, Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition, Optical Society of America, Optica Quantum 2.0 Conference and Exhibition, QUANTUM 2025, San Francisco, United States, 6/1/25. https://doi.org/10.1364/quantum.2025.qm2c.2

Fernandes RP, Pizzimenti AJ, Gagatsos CN, Lukens JM. Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information. In Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition. Optical Society of America. 2025. QM2C.2. (Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition). doi: 10.1364/quantum.2025.qm2c.2

Fernandes, Rhea P. ; Pizzimenti, Andrew J. ; Gagatsos, Christos N. et al. / Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information. Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition. Optical Society of America, 2025. (Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition).

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title = "Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information",

abstract = "A major unexplored question of quantum state tomography is the relative efficiency of homodyne versus heterodyne measurements for reconstructing non-Gaussian states. We introduce a Fisher information-based formalism to answer this question, tested through simulated experiments.",

author = "Fernandes, \{Rhea P.\} and Pizzimenti, \{Andrew J.\} and Gagatsos, \{Christos N.\} and Lukens, \{Joseph M.\}",

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PY - 2025

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Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information

Abstract

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ASJC Scopus subject areas

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