Dilithium Crystals to Power Drones like the Starship Enterprise.

The sort of dilithium crystal installation that powered the Star Ship Enterprise  is perhaps not that far away.   Lasers happen to be considered potential solutions for beaming electricity straight to drones,  by focusing on their power cells affixed to the aircraft.  The US military’s  separate research teams are investigating the concept. The craft could operate without any batteries whatsoever, assuming they run along a system of  electricity relaying lasers aimed through GPS based monitoring systems.  The aircraft could have  backup  batteries on board having enough capability to safely land if needed. Thanks to the help from diamonds the future is now. The caliber of this type of laser beam and therefore its ability to present consistent and strong enough light to drones tends to weaken with distance.   Researchers  thinks their solution may be a similar concept as the dilithium crystals that power the Star Ship Enterprise of Star Trek fame. A Laser beam maintains its integrity within much longer ranges and  with the use of ground based networks .  The diamond enhances  the electrical  sources and sends the  drones flying amazing distances, and without having to waste its energy capability by hauling  batteries. Exactly the very same technology could also be employed to beam energy and data.   Diamonds,  are great heat conductors and transparent to light.  They could have a top quality laser beam that creates a lot of warmth, and exudes that warmth, enabling more power to pass through. Satellites orbiting at up to 700 kilometers could  virtually produce a column of light with exceptionally minimal divergence. A laser ray’s tendency to distribute and weaken as it gets further from its source has always been a problem.  However , the laser light itself would nonetheless be harmless to those that might look to it or intersect its ray. Drones have arrived in the  US airspace, and now they are multiplying.   By 2022  it is estimated that  700,000 of these  unmanned aerial vehicles (UAV) could function as stated by the FAA, delivering packages, observation traffic, surveying , aerial imagery and filling additional yet to be discovered markets.  To do that they will probably need enough power to spin its rotors and run its own on board detectors and sensors.   Most will get it done with on board batteries. Today’s  advanced laser technology is more robust enough for anyone’s power requirements.  Even laser pointers with only 5 watts can be enough to power a drone nearby.  The issue is,  the fact that solar cells mounted onto a drone would want to be small enough to function and power the drone and still be useful enough without undermining the drone’s mission. A professor at Stanford University, states that they have developed an artificial diamond that can help.  At LakeDiamond , CEO Pascal Gallo says, that the Organization’s lab -created such a diamond and, if the Swiss company has its own way,  drone’s could stay aloft indefinitely.   Lake Diamond’s gemstones are purer than natural diamonds along with formulations  within their fascia.  It is made by recycled carbon atoms in a crystalline pattern they are etched with a grating onto the face that produces a mirrored effect that determines the width of the beam. The existing test system that the company has made uses a 1.554 micrometer laser to supply 4 watts of power, the equivalent of 10,000 laser pointers.   It can power little hands sized drones large enough to transport camera system to get extended amounts of time at distances of up to ten meters. The next step, would be one hundred watts of electrical power to cover up to 100 meters, something  they expect to attain within the next year.