The Wavoid has been precision engineered using metamaterial-like structures to dissipate and absorb EMF. It uses a combination of electric ring resonators and magneto-electric unit cells as well as microwave ultra-broadband metamaterial-like absorber to channel EMF noise into the Wavoid.
It is widely acknowledged that EMF can increase the risk of several ailments. There are claims that EMF can impact the cellular structure including the cells in your brain, spine or immune system. This can increase the risk of developing a range of diseases including cancer. Children are particularly sensitive to EMF as their bodies are still developing. With the increasing amount of technology in the world their lifetime absorption will likely be much higher than adults today.
It is a special material that absorbs many spectrums of EMF that are incident to the absorption plane of the absorber. You can read more about metamaterial absorbers here.
The Wavoid is designed to absorb most EMF in the microwave range as well as WiFi and Cellular ranges including high GHz frequencies used by the government and research agencies. This broad absorption range will significantly reduce the EMF absorbed by anyone near the Wavoid as its vortex absorption pattern will act as am EMF sink (see the image below) for these frequencies.
Your Wavoid will last forever. While it is absorbing the EMF around you, those signals are effectively being "shattered" by the metamaterial-like structures on the Wavoid surface. The Wavoid's internal honeycomb structure then dissipates the energy in these waves and it is harmlessly absorbed by this internal structure. The Wavoid's total EMF absorption capability could be overwhelmed by particularly high energy bursts of EMF but nothing on Earth produces EMF at these levels yet.
Try to avoid leaving your Wavoid in direct sunlight. The sun produces more EMF than anything on Earth and it is possible that the Wavoid may absorb too much EMF from the sun and be damaged. Once the metamaterial-like structures are damaged the Wavoid will no longer function properly.
No! The antennas on your WiFi or Cellular devices are very efficient EMF absorbers but are not as advanced as a metamaterial absorber. As long as a small portion of the overwhelmingly large EMF signals produced by WIFi or Cellular antennas reach your devices, they will work. The Wavoid will serve to absorb and reduce all the extraneous EMF that is not really needed for those devices to function effectively.
It is not that simple. EMF decreases according to the inverse-square law. Consequently the effectiveness of the Wavoid to absorb EMF is governed by this natural law. The Wavoid will function to absorb the large EMF waves that have traveled far from their source but it is significantly more effective in absorbing most of the EMF produced near its source. For example, placing a Wavoid near your WiFi router will absorb more of the extraneous high-energy waves being emitted by the device, leaving only enough for your WiFi devices to function.
Wavoids can also be placed in a perimeter (of at least three) to significantly reduce all EMF in an specific area, creating an EMF Void Space. This works by creating a wave interference pattern like you see with waves on a body of water.
The waves interfere with each other and can't propagate as well across the surface. Increasing the number of Wavoids in the perimeter will increase this interference pattern and reduce the amount of EMF entering the void. We recommend a minimum of five Wavoids to create an EMF Void Space.
Incidentally, this is where the Wavoid gets its name from!
Until the advent of 3D printing, producing a structure like this was outside the ability of modern mass-production techniques. The combination of metamaterial-like structures along with the internal absorbing structure of the Wavoid can only be produced by a 3D printer. Additionally 3D printing allows us to dynamically vary the type of metamaterial structures used allowing for broad absorption characteristics.
While you can print your own 3D models, the combination of metamaterial-like structures, the internal absorbing honeycomb lattice and the aliphatic polyester thermoplastic material are trade secrets and can be produced only by us.
Metamaterials are a recent advancement in EMF absorption research. Here are some of the sources we have based the Wavoid on.
Metamaterial Electromagnetic Wave Absorbers
Ultra-broadband Microwave Metamaterial Absorber
Metal-free Metamaterial Tuning