L de Arcangelis
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Explore the profile of L de Arcangelis including associated specialties, affiliations and a list of published articles.
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27
Citations
187
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Recent Articles
1.
Simoes T, Filho C, Herrmann H, Andrade Jr J, de Arcangelis L
Sci Rep
. 2024 Apr;
14(1):9480.
PMID: 38664504
Recent results have evidenced that spontaneous brain activity signals are organized in bursts with scale free features and long-range spatio-temporal correlations. These observations have stimulated a theoretical interpretation of results...
2.
Apicella I, Scarpetta S, de Arcangelis L, Sarracino A, de Candia A
Sci Rep
. 2022 Dec;
12(1):21870.
PMID: 36536058
The power spectrum of brain activity is composed by peaks at characteristic frequencies superimposed to a background that decays as a power law of the frequency, [Formula: see text], with...
3.
Rahimi-Majd M, Seifi M, de Arcangelis L, Najafi M
Phys Rev E
. 2021 May;
103(4-1):042402.
PMID: 34005924
Local anaxonic neurons with graded potential release are important ingredients of nervous systems, present in the olfactory bulb system of mammalians and in the human visual system, as well as...
4.
Berger D, Varriale E, van Kessenich L, Herrmann H, de Arcangelis L
Sci Rep
. 2019 Nov;
9(1):15858.
PMID: 31676810
Stroke is one of the main causes of human disabilities. Experimental observations indicate that several mechanisms are activated during the recovery of functional activity after a stroke. Here we unveil...
5.
van Kessenich L, Berger D, de Arcangelis L, Herrmann H
Phys Rev E
. 2019 Feb;
99(1-1):010302.
PMID: 30780306
Pattern recognition is a fundamental neuronal process which enables a cortical system to interpret visual stimuli. How the brain learns to recognize patterns is, however, an unsolved problem. The frequently...
6.
de Arcangelis L, Lippiello E, Ciamarra M, Sarracino A
Philos Trans A Math Phys Eng Sci
. 2018 Nov;
377(2136).
PMID: 30478201
The frictional properties of disordered systems are affected by external perturbations. These perturbations usually weaken the system by reducing the macroscopic friction coefficient. This friction reduction is of particular interest...
7.
van Kessenich L, Lukovic M, de Arcangelis L, Herrmann H
Phys Rev E
. 2018 May;
97(3-1):032312.
PMID: 29776048
In recent years self organized critical neuronal models have provided insights regarding the origin of the experimentally observed avalanching behavior of neuronal systems. It has been shown that dynamical synapses,...
8.
Gnoli A, de Arcangelis L, Giacco F, Lippiello E, Ciamarra M, Puglisi A, et al.
Phys Rev Lett
. 2018 Apr;
120(13):138001.
PMID: 29694230
We experimentally investigate the fluidization of a granular material subject to mechanical vibrations by monitoring the angular velocity of a vane suspended in the medium and driven by an external...
9.
Giacco F, de Arcangelis L, Ciamarra M, Lippiello E
Phys Rev E
. 2018 Feb;
97(1-1):010901.
PMID: 29448316
According to the acoustic fluidization hypothesis, elastic waves at a characteristic frequency form inside seismic faults even in the absence of an external perturbation. These waves are able to generate...
10.
Lombardi F, Herrmann H, de Arcangelis L
Chaos
. 2017 May;
27(4):047402.
PMID: 28456161
The 1/f-like decay observed in the power spectrum of electro-physiological signals, along with scale-free statistics of the so-called neuronal avalanches, constitutes evidence of criticality in neuronal systems. Recent in vitro...