There are often too dependent on the GPS to know their location and to help create a successful, mission-planning and – file of the photo.
Dismounted soldier is to take enemy fire in a high-intensity combat engagement, is a vital importance to the enemy’s location, snaps a quick photo of the area with a hand-held device, and then transmitting the time-sensitive intelligence information to the other soldiers and ground commanders. The images are then sent to the air-and ground-based units will be in a position to attack, and the enemy is active, will be destroyed in the blink of an eye, long before it has a chance to strike US forces.
In this type of scenario is the type of war scenario, more and more attention is given to the Military technology and weapons, the developers, as success or failure, even life or death can hang in the balance of the network, the speed of such computer processing, the radio, or any other form of electricity and other communication systems. In a short, sharp, fast, wide-ranging networks that can decide the victory in the second world war.
It is in this particular modern-combat dynamics are at the forefront of the Army Research Office is funding from the government, industry and academic team of researchers at the cutting edge of the creation of a new, high-frequency, is a promising semi-conductor and transistor technology.
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With the transistor technology that uses carbon nanotubes, which is described in an essay, “Science Daily,” as well as materials, in the form of cylindrical carbon molecules.”
Aligned carbon nanotubes, the Army Research Office, the developers explain, provide a new level of processing and transmission services that are not only larger than that of the much-discussed the 5G-technology — but it brings with it the prospect of changing in the direction of the 6G speed, and outside of it. The potential implications of this type of technology has few limits, and span both the near and far term options, Dr. Joe Qiu, program manager, solid-state and electro-magnetism in the Army Research Office, told the Warrior in a recent interview.
With the cooperation of the Army Research Laboratory’s Army Research Office, is a company that is well-known as Carbonics, and the University of Southern California, usa. The purpose of the exercise is to show that the “carbon nanotube technology for the first time, you will reach speeds of more than 100GHz, in radio-frequency applications,” according to an Army Research Laboratory report.
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It speeds up, the developer can tell the Warrior, and are massively higher than the performance of the parameters of the existing consumer electronics such as mobile phones. Qiu explains that carbon nanotubes are now known to be capable of high-speed and efficient electron transport, and they are in a position to attain a higher level of high-frequency transistor technology, the Qiu will be explained.
Aligned carbon nanotubes, according to an executive summary of 2018 essay, “the Nature of Electronics,” to be compatible with what is called a Complementary Metal-Oxide-Semiconductor (CMOS). (Physics, Electronics, November, 2018, “a Wafer-scalable, aligned, carbon nanotube transistors operating at frequencies of more than 100GHz.”)
Transistor technology, for example, as described by the scientific community, it consists of a number of layers of material comprise a metal electrode, oxide, insulator and semi-conductor material, usually silicon. The oxide insulation prevents the flow of electrons to the transition from the electrode to the semiconductor, something that could lead to a “short” of a transistor in a circuit.
The dielectric is an electric field, or the region in which the charged particles can exert force to connect the probe to the semiconductor, causing a movement of electricity. Therefore, a semiconductor device that acts as an insulator and a conductor of electrons, but also lead an electric current, to achieve the required flow of electricity. A senior scientist has told the Warrior, “is a semiconductor device that will conduct in the event of an electrical field. It has an electric field that turns things on and off.”
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Aligned carbon nanotubes, Nature, Electronics, essay, abstract, states, and enable a strong, linear signal amplification and compatibility with the Complementary Metal-Oxide-Semiconductor technology.”
Semi-conductor nanotubes, Qiu explained, are thousands of times smaller than that of an individual, a human hair; they can be in the assembly of high-purity semiconducting carbon nanotubes into dense aligned arrays,” the ARL’s essay states”.
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What this means is that these types of semi-conductor components can have an exponential improvement in the performance, the speed and the efficiency of the Radio-Frequency electrical signals. This is the ARL report, it is explained, can have a positive impact on a wide range of military systems, to include radar, electronic warfare systems, and a wide range of control of the critical configuration.