Quantum networks: Anti-core of spin chains

E. Jonckheere, F. C. Langbein, S. Schirmer. Quantum networks: Anti-core of spin chains. Quantum Information Processing. 13(7):1607-1637, 2014. [DOI:10.1007/s11128-014-0755-5] [arXiv:1403.0159] [PDF]

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The purpose of this paper is to exhibit a quantum network phenomenon – the anti-core—that goes against the classical network concept of congestion core. Classical networks idealized as infinite, Gromov hyperbolic spaces with least-cost path routing (and subject to a technical condition on the Gromov boundary) have a congestion core, defined as a subnetwork that routing paths have a high probability of visiting. Here, we consider quantum networks, more specifically spin chains, define the so-called maximum excitation transfer probability $p_{\max}(i,j)$ between spin $i$ and spin $j$ , and show that the central spin has among all other spins the lowest probability of being excited or transmitting its excitation. The anti-core is singled out by analytical formulas for $p_{\mathrm{max}}(i,j)$ , revealing the number theoretic properties of quantum chains. By engineering the chain, we further show that this probability can be made vanishingly small.

Cite this page as 'Frank C Langbein, "Quantum networks: Anti-core of spin chains," Ex Tenebris Scientia, 4th November 2014, https://langbein.org/jonckheere2014/ [accessed 22nd December 2024]'.

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Frank C Langbein
Ex Tenebris Scientia

Frank C Langbein
Ex Tenebris Scientia

Quantum networks: Anti-core of spin chains