International (Channel TT): The computer is using electricity. Instead, a group of scientists is thinking of computers operating based on solar. Is the 'quantum computer' coming to market soon? The idea of multinational stoics like Google, IBM, are playing tough from the beginning of the quantum era. The new era of computers has been realized by the fact that the photonics is coming in instead of electronics, developed in countries like the USA, Canada, England, Japan, France, Switzerland, China, Japan, Taiwan, Singapore, and Australia. So the study of photonics started in those countries' universities. The Solar or Photonics computer is coming to the tech market strongly. There are disagreements, however, that the arguments of the experts on quantum and solar's side are helpful in the decision:
First, this quantum technology is still in the beginning. This computer made of superconducting material will only function properly in the heat of the super-cool (almost zero kelvin) that is beyond the normal touch. It's only possible in the laboratory. Solar is a good thing in terms of temperature.
Second, the interesting thing is that the scope of the quantum computer's miraculous skills is limited. Although quantum computers are efficient in banking, e-commerce or certain research, it is not certain whether solar computers will be able to perform everyday tasks that can be done with home desktops or "PCs". What's coming to the market soon is a photonic computer. Intel, IBM Are Working with Apple's Experts on New Solar Technology. Scientists ask, where is the difference with electronics?
The hand-held smartphones, the televisions or laptops on the desk, these electronic devices are all electrically powered. Only two bits are called binary systems, which are used in digital electronics.
The electronic device is used to control the flow of electricity or electrons in suitable semiconductor ings such as silicon. The small switch or transistor of devices which controls the amount of electrical flow and the face in the inner circuit according to our needs. We actually control these switches on or off the circuit voltage with the keypad from outside. Today's advanced computers have millions of switches or transistors. Which can be easily on or off from outside. The speed of the computer depends on how quickly these switches can be switched on. On the computer's clock speed in a single. The speed of the computer's clicks is usually Giga (109) hertz. This means that the computer's controlling switches can be turned off more than 109 (100 million) times in seconds. The number of hundreds of millions in seconds is not small. But, the daily needs of people don't meet that. There is continuous research on how to make these computers smaller, more dynamic and efficient. The problem is here. Electron metal travels at a relatively low speed through the wire. This speed is a fraction of the speed of light. Again, electronic circuits cannot be minimized as desired. Because when two electronic circuits come close, the power of the electric or charge-holding between them multiplied. This is called the "cacapacity". They then lock the electrons like a pot into one of them. As a result, no matter how quickly we try to control the switches from outside, the locked electrons cannot move easily. So the computer's speed also starts to decrease as it is smaller.
Today we are a branch of photonics or light-particle science. Like electronics, the use of light science is everywhere. From the measurement of the weak gravitational waves formed by two giant twins to the collision of the black hole, a billion light-years away, the perfect clock is created to measure the vibrations of the tiny atoms and atoms. And now, thanks to the mile-long optical fiber cables below the sea, we have fast-paced broadband internet at home today, which is my daily companion. The light-flashing Pujol panel's LED lights, laser rays used in the operation of the sash, or the unsightly lysing CDs on your table, are all a gift of light. There is also a duality of the light of the envelope. He is a wave, sometimes a particle. The object is seen when light is reflected like a wave from an object. This light-particle or photon is a massless, non-charged type of boson particle that rushes through the light. Photonic computers have small lasers. If the laser is on, it means 0, and if it's closed.
In a continuous study, the optical transistor was discovered. Though one part of the human hair is about 100 percent, the light is freely transported from one end of the circuit to the other. Using photonic technology, there is a smaller computer-generated work, with clock-speed at least a few thousand times higher (1012 or Terra-Hertz). Also, due to the photon mass and chargelessness, the photonic circuits produce very little heat. As a result, power was wasted. Photonics is about to change in the new age of computers instead of electronics. Advanced countries like the USA, Canada, England, Japan, France, Switzerland, China, Japan, Taiwan, Singapore, and Australia are involved in the research. The study of photonics has been started in the university. Photonics is the revolution to create better 'quantum computers'. The media is waiting for the Sigri Solar computer. Source: Tech News