@djones "Where can I find some scientific papers that back up this claim?"
Google search for brain wave frequencies - alpha, beta, theta.
@sokogear Go get yourself an oscilloscope, open up the device, and you will measure the frequency. I guarantee that it will be a square wave 7 - 8 Hz. An EMF meter should measure ULF (ultra low frequency) placed over the device. Get a sound level meter. Play a CD of pink/white noise, whatever, through your system and point the meter to the speakers from your listening position.
Measure. Power on the Schumann resonator. Repeat the measurement. Any change that occurs is due to the harmonic series derived from the Schumann square wave frequency resonating with the pink/white noise CD signals.You will hear it - the increase in amplitude. And the dB meter doesn't lie.
I have done this simple test. It verifies what your ears tell you - that the sound pressure level got stronger or the sound got LOUDER! Anyone can do this. Just leave out the bias and bring in intellectual honesty.
Google search for brain wave frequencies - alpha, beta, theta.
@sokogear Go get yourself an oscilloscope, open up the device, and you will measure the frequency. I guarantee that it will be a square wave 7 - 8 Hz. An EMF meter should measure ULF (ultra low frequency) placed over the device. Get a sound level meter. Play a CD of pink/white noise, whatever, through your system and point the meter to the speakers from your listening position.
Measure. Power on the Schumann resonator. Repeat the measurement. Any change that occurs is due to the harmonic series derived from the Schumann square wave frequency resonating with the pink/white noise CD signals.You will hear it - the increase in amplitude. And the dB meter doesn't lie.
I have done this simple test. It verifies what your ears tell you - that the sound pressure level got stronger or the sound got LOUDER! Anyone can do this. Just leave out the bias and bring in intellectual honesty.