Invariant in variants

TL;DR

This paper investigates physical invariants in Covid-19 variants through numerical experiments based on continuity mechanics, aiming to develop innovative deactivation methods like ultrasound resonance to combat the virus.

Contribution

It introduces a novel approach to identify physical invariants in virus variants using mechanics, proposing potential resonance-based deactivation techniques.

Findings

Identification of vibration modes and natural frequency ranges of Covid-19 variants

Demonstration of coupled acoustics and dynamics equations governing viral vibrations

Proposal of ultrasound resonance as a method to deactivate the virus

Abstract

The coronavirus Covid-19 mutates quickly in the pandemic, leaves people struggling to verify and improve the effectiveness of the vaccine based on biochemistry. Is there any physical invariant in the variants of such kind of pathogen that could be taken advantage to ease the tensions? To this point, extensive numerical experiments based on continuity mechanics were carried out to discover the vibration modes and the range of natural frequency of coronavirus Covid-19. Such invariant could help us in developing some flexible technique to deactivate the coronavirus, like as resonantly breaking the viral spike by ultrasound wave. The fundamental mechanisms governing such process are demonstrated via solving the coupled equations of acoustics and dynamics and thereafter the technique strategies proposed to efficiently realize the concept.