Researchers at the University of Utah in the United States have developed the smallest plasma transistor to date, which can withstand the high temperature of nuclear reactors and the environmental conditions of ionizing radiation, which helps to develop smart phones that collect medical X-rays on the battlefield, equipment for real-time monitoring of air quality X-ray lithography technology without bulky lens and X-ray beam shaping device. This kind of transistor has the potential to open up a new class of electronic devices suitable for working in the nuclear environment. It can be used to control and direct robots to perform tasks in nuclear reactors. It can also control nuclear reactors when problems occur and continue to work in the event of a nuclear attack. As a key component of contemporary electronic equipment, silicon-based transistors use electric fields to control the flow of charge to turn the transistor on or off. It fails when the temperature is higher than 550 degrees Fahrenheit, which is the temperature at which nuclear reactors usually operate. This time, American researchers will use the plasma air gap that conducts ions and electrons as a conductive channel to develop a plasma transistor that can operate at extremely high temperatures. Its length is 1 ~ 6 microns, which is 1/500 of the most advanced miniature plasma devices, the working voltage is one sixth of it, and the working temperature is up to 1450 degrees Fahrenheit. Nuclear radiation can ionize the gas into a plasma, so this extreme environment is easier for plasma devices to work. fabric bed bench,fabric bed back,fabric bed,fabric bed frame Famous Home Living(Dongguan)Co.,ltd , https://www.famoushomeliving.com