Complementarity and uncertainty in Mach-zehnder interferometry and beyond

&

Abstract

A coherent account of the connections and contrasts between the principles of complementarity and uncertainty is developed starting from a survey of the various formalizations of these principles. The conceptual analysis is illustrated by means of a set of experimental schemes based on Mach-Zehnder interferometry. In particular, path detection via entanglement with a probe system and (quantitative) quantum erasure are exhibited to constitute instances of joint unsharp measurements of complementary pairs of physical quantities, path and interference observables. The analysis uses the representation of observables as positive-operator-valued measures (POVMs). The reconciliation of complementary experimental options in the sense of simultaneous unsharp preparations and measurements is expressed in terms of uncertainty relations of different kinds. The feature of complementarity, manifest in the present examples in the mutual exclusivity of path detection and interference observation, is recovered as a limit case from the appropriate uncertainty relation. It is noted that the complementarity and uncertainty principles are neither completely logically independent nor logical consequences of one another. Since entanglement is an instance of the uncertainty of quantum properties (of compound systems), it is moot to play out uncertainty and entanglement against each other as possible mechanisms enforcing complementarity.

Categories

Keywords

Reprint years

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 93,990

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

  • Only published works are available at libraries.

My notes

Similar books and articles

Preparation and Measurement: Two Independent Sources of Uncertainty in Quantum Mechanics. [REVIEW]Willem M. de Muynck - 2000 - Foundations of Physics 30 (2):205-225.
Paradox in Wave-Particle Duality.Shahriar S. Afshar, Eduardo Flores, Keith F. McDonald & Ernst Knoesel - 2007 - Foundations of Physics 37 (2):295-305.
A note on quantum theory, complementarity, and uncertainty.Paul Busch & Pekka J. Lahti - 1985 - Philosophy of Science 52 (1):64-77.
The Uncertainty Relations in Quantum Mechanics.D. Sen - 2014 - Current Science 107 (7):203-218.
Quantum Uncertainty Dynamics.Md Manirul Ali - 2023 - Foundations of Physics 53 (1):1-20.
Complementary Observables in Quantum Mechanics.Jukka Kiukas, Pekka Lahti, Juha-Pekka Pellonpää & Kari Ylinen - 2019 - Foundations of Physics 49 (6):506-531.
Unsharp particle-wave duality in a photon split-beam experiment.P. Mittelstaedt, A. Prieur & R. Schieder - 1987 - Foundations of Physics 17 (9):891-903.
The Concept of Complementarity and its Role in Quantum Entanglement and Generalized Entanglement.Thilo Hinterberger & Nikolaus Stillfried - 2013 - Axiomathes 23 (3):443-459.
Heisenberg’s Uncertainty Principle.Paul Busch, Teiko Heinonen & Pekka Lahti - 2007 - \em Phys. Rep 43:155-176.
The Concept of Complementarity and its Role in Quantum Entanglement and Generalized Entanglement.Thilo Hinterberger & Nikolaus von Stillfried - 2013 - Global Philosophy 23 (3):443-459.

Analytics

Added to PP
2009-01-28

Downloads
84 (#196,539)

6 months
7 (#592,073)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

Exchange Forces in Particle Physics.Gregg Jaeger - 2021 - Foundations of Physics 51 (1):1-31.
Bohr and the Photon.John Stachel - 2009 - In Wayne C. Myrvold & Joy Christian (eds.), Quantum Reality, Relativistic Causality, and Closing the Epistemic Circle. Springer. pp. 69--83.
Wave–Particle Duality: An Information-Based Approach.R. M. Angelo & A. D. Ribeiro - 2015 - Foundations of Physics 45 (11):1407-1420.

View all 7 citations / Add more citations

References found in this work

Add more references