I mean...Superb, ohaaa!!!Sattelite savarOhaaa!!!
The single 35mm turrets with acoustic detection systems are also interesting. Possibly for the YN ZMA tests?There are Korkut turrets, Korhan turrets laser gun, and the Gökdemir air defense system. It seems there is a good amount of production of existing systems and prototype production of new systems.
It is Korhan turret.The single 35mm turrets with acoustic detection systems are also interesting. Possibly for the YN ZMA tests?
So many goodies.
Yes but i'm more interested in two being produced at the same time. No active program currently exists for them except for YN ZMA. They must be getting ready for the tests of the vehicles, finally.It is Korhan turret.
Is that Korhan?
It is impossible to produce a laser with a power of 0.315 kilowatts from such a laser weapon. This must be a patent for a different project. Even the picture itself implies that ALKA will easily switch to a 5 kilowatt laser weapon.Aselsan's relevant patent of its laser gun.
It is a lab prototype for patent application. Aselsan can easily use more powerful laser diodes for a more powerful laser beam. Scalability is the important part.It is impossible to produce a laser with a power of 0.315 kilowatts from such a laser weapon. This must be a patent for a different project. Even the picture itself implies that ALKA will easily switch to a 5 kilowatt laser weapon.
Figure-6 shows an example graph illustrating the power versus current of a laser diode stage comprising preferably ten laser diodes each. When this graph is analyzed, It is seen that the average power of a laser diode stage is 38 W.
Figure-7 an example graph showing the current strength of a laser diode package described in the invention is given. When this graph is analyzed, the mean power of a laser diode package that includes at least three laser diode stages is 104 W on average.
Figure-8 shows an example graph illustrating the power versus current of a concentrated high power laser beam pack obtained by horizontally multiplexing three laser diode packages described in the preferred embodiment of the invention. When the graph in question is examined, it is seen that the power of the concentrated high-power laser beam packet formed by horizontally multiplexing three laser diode packages is 315 W on average.
When Figure-6, Figure-7 and Figure-8 are examined, it is seen that thanks to the method of forming a concentrated high-power laser beam developed within the scope of this invention, high power can be obtained from a concentrated high-power laser beam package obtained by using at least one low power laser diode array and multiplexing them in parallel and horizontally.