Here is a new moderately expensive solution to room acoustics! Active Bass Traps! They use heat to dissipate sound waves! Genius!
Available at the link below!
https://vintageking.com/psi-avaa-c20-graphite-black-demo-deal?utm_campaign=%7BPmax500-10k%7D&gclid=Cj0KCQjw6cKiBhD5ARIsAKXUdyb7fl8Ed6dR7a9eOOpJDGpY9xDSxZgro21aNB2sRm7rntr9E6D5bDIaAl_YEALw_wcB
Psi audio bass traps are a type of acoustic treatment device designed to absorb low-frequency sound waves in a room. The science behind their operation is based on the principles of sound wave propagation and absorption.
When sound waves encounter a surface, they can either be reflected, absorbed, or transmitted through the material. In a typical room, low-frequency sound waves can accumulate in the corners and other resonant areas of the space, resulting in a buildup of bass frequencies that can cause problems such as unwanted resonance, standing waves, and room modes.
Psi audio bass traps are designed to address these issues by providing a highly effective means of absorbing low-frequency sound waves. They work by using a combination of specially designed materials and structures that are optimized to absorb sound waves in the frequency range of interest.
One of the key components of a Psi audio bass trap is a porous absorber, which consists of a material with a high airflow resistance, such as fiberglass or mineral wool. The porous absorber works by converting sound energy into heat through a process known as viscous friction. As sound waves pass through the material, they cause tiny air molecules to vibrate, which generates heat and dissipates the sound energy.
In addition to the porous absorber, Psi audio bass traps may also include other acoustic treatment materials such as resonators or tuned absorbers, which are designed to target specific frequency ranges.
Overall, the science behind Psi audio bass traps involves a combination of acoustic principles and advanced materials science, and their effectiveness depends on a number of factors, including the specific design of the device, the placement within the room, and the overall acoustic properties of the space.