Fractional Conformal Map, Qubit Dynamics and the Leggett-Garg Inequality
Abstract: Any pure state of a qubit can be geometrically represented as a point on the extended complex plane through stereographic projection. By employing successive conformal maps on the extended complex plane, we can generate an effective discrete-time evolution of the pure states of the qubit. This work focuses on a subset of analytic maps known as fractional linear conformal maps. We show that these maps serve as a unifying framework for a diverse range of quantum-inspired conceivable dynamics, including (i) unitary dynamics,(ii) non-unitary but linear dynamics and (iii) non-unitary and non-linear dynamics where linearity (non-linearity) refers to the action of the discrete time evolution operator on the Hilbert space. We provide a characterization of these maps in terms of Leggett-Garg Inequality complemented with No-signaling in Time (NSIT) and Arrow of Time (AoT) conditions.
- Nakahara M.,Ohmi T.,Quantum Computing - From Linear Algebra to Physical Realizations (2008).
- E. M. Stein and R. Shakarchi, Complex variables,Princeton Univ Press (2003).
- S. Yau and X. Gu, Computational Conformal Geometry(2006).
- T. Zhan et.al, Phys. Rev. A 107 012424 (2023).
- P. Lu et.al, arXiv:2309.06713 [quant-ph] (2023).
- A. Quinn et.al, arXiv:2304.12413 [quant-ph](2023).
- G. Lindblad, “Completely Positive Maps and Entropy Inequalities” Commun. Math. Phys. 40, 147-151 (1975).
- M.D Choi, “Completely Positive Linear Maps on Complex Matrices” Lin. Alg. Appl. 10, 285–290 (1975).
- Alber, G. (1999). Entanglement And The Linearity Of Quantum Mechanics.
- S. Ghosh et al (2023), J. Phys. A: Math. Theor. 56 205302.
- D. C. Brody and E.-M. Graefe Phys. Rev. Lett. 109, 230405 (2012).
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