Download xampp windows 10 64 bit
743 programs for “xampp for windows 10 64-bit”.Download XAMPP for Windows –
May 20, · XAMPP on bit and bit PCs. This download is licensed as freeware for the Windows (bit and bit) operating system on a laptop or desktop PC from servers without restrictions. XAMPP is available to all software users as a free download for Windows.4/5(42). Jul 04, · XAMPP is an easy to install Apache distribution containing MariaDB, PHP, and Perl. Just download and start the installer. It’s that easy. XAMPP for Windows . Mar 05, · xampp for windows 10 bit free download. XAMPP XAMPP is a very easy to install Apache Distribution for Linux, Solaris, Windows, and Mac OS X. The p.
Download xampp windows 10 64 bit.XAMPP – Download
Download XAMPP for Windows PC from FileHorse. % Safe and Secure Free Download (bit/bit) Latest Version /10(). May 20, · XAMPP on bit and bit PCs. This download is licensed as freeware for the Windows (bit and bit) operating system on a laptop or desktop PC from servers without restrictions. XAMPP is available to all software users as a free download for Windows.4/5(42). Mar 05, · xampp for windows 10 bit free download. XAMPP XAMPP is a very easy to install Apache Distribution for Linux, Solaris, Windows, and Mac OS X. The p.
Easy to install Apache distribution containing MySQL, PHP and Perl
xampp for windows 10 bit free download – SourceForge
XAMPP Download ( Latest) for Windows 10, 8, 7
An unusual supersensitive terahertz radiation detector has been created in Russia
Physicists of the Moscow Institute of Physics and Technology with colleagues from the Moscow State Pedagogical University and the University of Manchester have created a highly sensitive terahertz radiation detector based on the tunneling effect in graphene. In fact, a field-effect tunneling transistor was turned into a detector, which was able to open with signals “out of the air”, and not transmitted through ordinary circuits.
Quantum tunneling. Image source: Daria Sokol, MIPT Press Service
This discovery, which was based on the ideas of physicists Mikhail Dyakonov and Mikhail Shur, proposed back in the early 1990s, brings the era of wireless terahertz technologies closer. This means that the speed of wireless communication will increase many times, and radar technologies and technologies for security systems, radio astronomy and medical diagnostics will rise to a qualitatively new level.
The idea of Russian physicists was that the tunneling transistor was proposed to be used not for signal amplification and demodulation, but as a device that “by itself converts a modulated signal into a sequence of bits or voice information due to a nonlinear relationship between current and voltage.”. In other words, the tunneling effect can occur when the signal level at the gate of the transistor is extremely low, which will allow the transistor to initiate the tunneling current (open) even from a very weak signal.
Why the classic scheme of using transistors is not suitable? During the transition to the terahertz range, most of the existing transistors do not have time to receive the required charge, therefore the classical radio circuit with an amplifier of weak signals on a transistor with subsequent demodulation becomes ineffective. It is necessary either to improve transistors, which also works up to a certain limit, or to offer something completely different. Russian physicists just this “different” and suggested.
Graphene tunneling transistor as terahertz detector. Image source: Nature Communications
“The idea of a strong reaction of a tunneling transistor to low voltages has been known for about fifteen years,” says Dmitry Svintsov, one of the authors of the study, head of the 2D materials optoelectronics laboratory at the MIPT Center for Photonics and 2D Materials. “Before us, no one realized that the same property of a tunneling transistor could be used in terahertz detector technology.”. As scientists have established, “if the transistor opens and closes well at a low power of the control signal, then it should and well pick up a weak signal from the air.”.
For the experiment, which is described in the journal Nature Communications, created a tunneling transistor on two-layer graphene. The experiment showed that the sensitivity of the device in the tunnel mode is several orders of magnitude higher than that in the classical transport mode. Thus, the experimental transistor-detector turned out to be no worse in sensitivity than similar superconducting and semiconductor bolometers available on the market. The theory suggests that the purer the graphene, the higher the sensitivity will be, which far exceeds the capabilities of modern terahertz detectors, and this is no longer an evolution, but a revolution in the industry.