Phase conjunctive invisibility

There is an optical affect known as phase conjunction-when an electromagnetic wave hits a phase conjunctive surface it is reflected back at the exact same angle at which it was propagated,hence the light waves striking a phase conjunctor are never reflected into the eye of an obsever,only back at the source of incidence.
thus only light which reflected off the eye onto the surface and back into the eye can observe the surface.

in contrast when a light wave hits a normal surface the light waves bounce off at an angle which is proportional to its incidence,hence a large amount of light is reflected off the suface and back into the eye.

so we see phase conjuncitive surfaces always reflect light back to its source,thus very very little light ever reaches the observers eye unless it itself is the exact source of light.

creating a phase conjuctive surface is easy in which light is only emiited from a few angles,yet creating a surface which reflects light from varying angles is harder,the hardest being everyday electromagnetism which arrives at almost all possible angles which requires a surface to constantly readjust to all the angles of the incoming light.

i propose a method of creating just that affect.

firstly create a surface of individualy arranged nano mirrors,say 10 nanometers each.these nano mirrors will be magnetised to react to the latent magnetism within the electromagnetic waves thus reallign themselves to reflect to the source of propogation.any waveslength larger than 10nm will be reflected by more than one mirror,they will share in the task of re alligment,thus the multiple nanomirrors will automaticly mold themselves around the size and angle of the incoming wave and always reflect them into phase conjunction.

therefore we essentially have a large spectrum of possible invisibilty,apart from any light that reflects of the eye of the observe which as previously mentioned will return back to that eye from ther pahse conjunctive surface.
the trick around this is to account for light waves reflecting off the observers eye,so they can be reflected at a slightly different angle to avoid the eye of the observer,lens,radar etc.

nanobots themselves will have to construct the quardupole nanomirrors and arrange them upon a surface which allows for thier movements of reallignement... say a highly liquid gel.they will also have to individualy magnetise the nanomirros.

using an alternative system of re alligment is possible.by increasing the size of the square nanomirrors to say 100 nm,and placing four nanoelectrodes at each side,so one can readjust the mirrors to incoming lightwaves if the nanomirrors also serve as detectors.when they detect an incoming wave the electrodes fire(at a specific frequency to not be detected as a light source) and reallign themselves.however the problem is time taken to reallign,if not done quickly enough the mirrors cannot not reallign themselves in time to cause phase conjunction.
a way round this is for the detectors to send thier information regarding all the electromagnetic hits they recieve back it the past to the phase conjunctors prior self,(a split second would do)in which case the information will processed to allow the nanomirrors to react at exactly the right moment surface wide.
we already have expiriments in which particles arrive before they are already sent,all we need is a constant stream of particles encoded with information to be sent a split second into the past to enable inter temporal communication to allow the nano mirrors to re adjust at the exact moment.
the intertemporal communication device will probably be housed away from the conjuctive surface inside the object it is shielding.
it can be achieved by scalar waves which can be utlized to create inter temporal communication as they travel faster than the speed of light.i will explain the process in another post.

i believe that is a method for full spectrum invisibility.