The constructive role of noise. / UC3M
Fecha

The constructive role of noise

The work explains that this effect can be used in the decoding and in the creation of extremely weak signals.

Noise can induce spatial and temporal order in non-linear systems, which helps to detect and amplify weak external signals that are difficult to detect by conventional amplifiers, according to an international team composed of researchers from Germany, China and Spain in which the Universidad Carlos III de Madrid (UC3M) is a participant. The work, published in two articles of the Physical Review Letters magazine (read article 1 y article 2), explains that this effect can be used in the decoding and in the creation of extremely weak signals, without the need for a reference signal and in a much shorter time than with a conventional amplifier.

Until now, all methods for detecting very weak signals (with high frequencies) were based on the synchronization of that weak signal with a reference signal, that is why a signal of unknown frequency (such as, for example, an encrypted message or a barely audible fragment of information) could go unnoticed if it were "hidden" in a background of loud noise. Scientists have found a steady-state electronic system that produces consistent and stable oscillations of the current by applying a noise, which is called "coherent resonance". The frequency of these oscillations varies continuously in a wide range from zero to one hundred megahertz. If a weak frequency signal is also superimposed on that range, the system synchronizes with the weak signal, which is called stochastic resonance. This can be used to detect, process and interpret the weak signal, in a shorter period of time and without the need for a reference signal as with conventional methods.

These findings could be used to identify signals that are hidden in a large amount of noise or, reciprocally, to encrypt signals by wrapping them in background noise and recovering them later. For example, we could extract information from a conversation that had been recorded in a noisy room, astronomical observations masked by a large background noise could be analysed more efficiently, and it would even be possible to process image signals.

 "Noise is usually a nuisance that we want to avoid and minimize in practical applications. However, there are times when noise plays a constructive role that can be used to produce useful results", says Luis L. Bonilla, researcher at the Department of Science and Materials Engineering and Chemical Engineering at the Instituto Gregorio Millán Barbany of the UC3M.

To demonstrate the existence of these resonances produced by noise and usable for the decoding of weak signals, the research team experimented with a super grid of semiconductors that periodically alternates layers of gallium arsenide with others of a gallium arsenide alloy with 45 percent aluminium. The numerical simulations based on electron transport models were carried out at the Instituto Gregorio Millán and the Materials Department of the UC3M, and the laboratory experiments took place at the SINANO Institute in Suzhou and at the National University of Defence Technology (China) with samples created at the Paul Drude Institute in Berlin (Germany).


References:
 

  1. Emanuel Mompo et al. 2018. Coherence resonance and stochastic resonance in an excitable semiconductor superlattice (Resonancia coherente y resonancia estocástica en una superred semiconductora excitable). Physical Review Letters. DOI: 10.1103/PhysRevLett.121.086805
  2. Zhengzheng Shao et al. 2018. Fast Detection of a Weak Signal by a Stochastic Resonance Induced by a Coherence Resonance in an Excitable GaAs / Al 0.45 Ga 0.55 As Superlattice (Detección rápida de una señal débil por una resonancia estocástica inducida por una resonancia coherente en una superred excitable de GaAs / Al 0.45 Ga 0.55 As). Physical Review Letters. DOI: 10.1103/PhysRevLett.121.086806

Add new comment

The content of this field is kept private and will not be shown publicly.
Para el envío de comentarios, Ud. deberá rellenar todos los campos solicitados. Así mismo, le informamos que su nombre aparecerá publicado junto con su comentario, por lo que en caso que no quiera que se publique, le sugerimos introduzca un alias.

Normas de uso:

  • Las opiniones vertidas serán responsabilidad de su autor y en ningún caso de www.madrimasd.org,
  • No se admitirán comentarios contrarios a las leyes españolas o buen uso.
  • El administrador podrá eliminar comentarios no apropiados, intentando respetar siempre el derecho a la libertad de expresión.
CAPTCHA
Enter the characters shown in the image.
Esta pregunta es para probar si usted es un visitante humano o no y para evitar envíos automáticos de spam.