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An Order Model for Infinite Classical States

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Abstract

In 2002 Coecke and Martin (Research Report PRG-RR-02-07, Oxford University Computing Laboratory, 2002) created a model for the finite classical and quantum states in physics. This model is based on a type of ordered set which is standard in the study of information systems. It allows the information content of its elements to be compared and measured. Their work is extended to a model for the infinite classical states. These are the states which result when an observable is applied to a quantum system. When this extended order is restricted to a finite number of coordinates, the model of Coecke and Martin is obtained. The infinite model retains many desirable aspects of the finite model, such as pure states as maximal elements and expected behavior of thermodynamic entropy. But it looses some of the important domain theoretic aspects, such as having a least element and exactness. Shannon entropy is no longer defined over the entire model and both it and thermodynamic entropy cease to be a measurements in the sense of Martin.

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References

  1. Abramsky, S., Jung, A.: Domain theory. In: Abramsky, S., Gabbay, D.M., Maibaum, T.S.E. (eds.) Handbook of Logic in Computer Science, vol. III. Oxford University Press, Oxford (1994)

    Google Scholar 

  2. Clifton, R., Bub, J., Halvorson, H.: Characterizing quantum theory in terms of information-theoretic constraints. Found. Phys. 33, 1561–1591 (2003), arXiv:quant-ph/0211089

    Article  MathSciNet  Google Scholar 

  3. Coecke, B., Martin, K.: A partial order on classical and quantum states. Research Report PRG-RR-02-07, Oxford University Computing Laboratory (2002). http://web.comlab.ox.ac.uk/oucl/publications/tr/rr-02-07.html

  4. Coecke, B., Martin, K.: Partiality in physics. Invited paper in Quantum Theory: Reconsideration of the Foundations 2. Vaxjo University Press, Vaxjo

  5. Fuchs, C.: Quantum mechanics as quantum information (and only a little more), arXiv:quant-ph/0205039 (2002)

  6. Martin, K.: A continuous domain of classical states. Research Report RR-04-06, Oxford University Computing Laboratory, Programming Research Group (2004)

  7. Mashburn, J.: A comparison of three topologies on ordered sets. Preprint

  8. Scott, D.: Outline of a mathematical theory of computation. Technical Monograph PRG-2, November 1970

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Authors and Affiliations

  1. University of Dayton, Dayton, OH, 45469-2316, USA

    Joe Mashburn

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  1. Joe Mashburn
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Correspondence to Joe Mashburn.

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Mashburn, J. An Order Model for Infinite Classical States. Found Phys 38, 47–75 (2008). https://doi.org/10.1007/s10701-007-9182-0

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  • DOI: https://doi.org/10.1007/s10701-007-9182-0

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