@celander
A partial explanation of what you are looking for:
We (the world) went to fiber optic as the ’carrier’ so to speak, is capable of much higher levels of signal carrying than ’wire’..... Multiplexing, and so on.
In glass fiber, it is still a metal, but it is an amorphous metal.... and the signal applied is slightly different, even though it is considered technically the same. Both electromagnetic, in this case, light.... not ’electricity’.
In the case of the liquid metal, we’ve stepped beyond the amorphous aspect, to full liquid. We are apparently, at the least, well beyond the signal carrying capacity of solidus ’wire’, thus we can (in a proper design), apparently... easily achieve GHz ranges in signal transmission.
With commensurate levels of potential multiplexing (akin to the optical scenario), with low to no interference issues. Thus those rich harmonics of the signal, all in proper context. Without the falsified emphasis in them (distortion/phase smear), which wire will -- and does have.
Hence the impression of some, "darker, but incredibly rich".
A partial explanation of what you are looking for:
We (the world) went to fiber optic as the ’carrier’ so to speak, is capable of much higher levels of signal carrying than ’wire’..... Multiplexing, and so on.
In glass fiber, it is still a metal, but it is an amorphous metal.... and the signal applied is slightly different, even though it is considered technically the same. Both electromagnetic, in this case, light.... not ’electricity’.
In the case of the liquid metal, we’ve stepped beyond the amorphous aspect, to full liquid. We are apparently, at the least, well beyond the signal carrying capacity of solidus ’wire’, thus we can (in a proper design), apparently... easily achieve GHz ranges in signal transmission.
With commensurate levels of potential multiplexing (akin to the optical scenario), with low to no interference issues. Thus those rich harmonics of the signal, all in proper context. Without the falsified emphasis in them (distortion/phase smear), which wire will -- and does have.
Hence the impression of some, "darker, but incredibly rich".