3 years ago

Benford analysis of quantum critical phenomena: First digit provides high finite-size scaling exponent while first two and further are not much better.

Utkarsh Mishra, Sudipto Singha Roy, Anindita Bera, Ujjwal Sen, Aditi Sen De, Anindya Biswas

Benford's law is an empirical edict stating that the lower digits appear more often than higher ones as the first few significant digits in statistics of natural phenomena and mathematical tables. A marked proportion of such analyses is restricted to the first significant digit. We employ violation of Benford's law, up to the first four significant digits, for investigating magnetization and correlation data of paradigmatic quantum many-body systems to detect cooperative phenomena, focusing on the finite-size scaling exponents thereof. We find that for the transverse field quantum XY model, behavior of the very first significant digit of an observable, at an arbitrary point of the parameter space, is enough to capture the quantum phase transition in the model with a relatively high scaling exponent. A higher number of significant digits do not provide an appreciable further advantage, in particular, in terms of an increase in scaling exponents. Since the first significant digit of a physical quantity is relatively simple to obtain in experiments, the results have potential implications for laboratory observations in noisy environments.

Publisher URL: http://arxiv.org/abs/1711.00758

DOI: arXiv:1711.00758v1

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