Samedi 30 avril 2011

Computer Implementation of new technologies to make any calculations of molecular

 Natural science research institutions in Japan, Institute of Molecular Science, KenjiOmori, a team led by Professor announced, they use 10 trillion of a second high-intensity infrared laser pulse, the success of a molecule to the quantum mechanicalatomic state (wave function ) read instant messages.
    Now rely on high-speed information processing LSI silicon-based transistors, but morelarge-scale 
integrated circuits(such as

 ADC804BH) due to the magnitude of an insulator to the level of a fewatomic layers, after the emergence of electronic leakage, leading to overheating anderror. The latest nano-technology in order to charge the same as the information carrier, it can not escape this fate. To solve this problem, the team selected for the neutralelectronic properties of quantum mechanical wave function as information carrierstested.
Omori's team has successfully used before the 0.3 nanometer-sized molecular wave function, the Fourier transform of the supercomputer increased 1,000 times,demonstrate a molecule can have ultra-high speed capabilities of the computer. Thistechnology than silicon-based transistor 1000 times smaller component size, the speedhas increased 1,000 times.
    However, the molecular wave function within the complex nature of the intrinsic elementscan only be carried out several specific calculations. To achieve any calculation, you also need to develop internal information from the external replacement of newmolecular technologies.
Scientists believe that before the energy state of molecules in the wave functions of different interference will not occur, and the research team found that the 10 trillionth of a second high-intensity infrared laser pulse irradiation, the wave functions of differentenergy state interference that occurs A new physical phenomena. This interference canthe wave function of the intramolecular complex intensity changes, and thus can be successfully read information from the outside.
New results mean that the future of this technology may be the molecular basis of the computer technology, the research team will be on solid and liquid in the clutter of thewave function recovery test in order to establish the molecular basis of computertechnology.

)
 due to the magnitude of an insulator to the level of a fewatomic layers, after the emergence of electronic leakage, leading to overheating anderror. The latest nano-technology in order to charge the same as the information carrier, it can not escape this fate. To solve this problem, the team selected for the neutralelectronic properties of quantum mechanical wave function as information carrierstested.
Omori's team has successfully used before the 0.3 nanometer-sized molecular wave function, the Fourier transform of the supercomputer increased 1,000 times,demonstrate a molecule can have ultra-high speed capabilities of the computer. Thistechnology than silicon-based transistor 1000 times smaller component size, the speedhas increased 1,000 times.
    However, the molecular wave function within the complex nature of the intrinsic elementscan only be carried out several specific calculations. To achieve any calculation, you also need to develop internal information from the external replacement of newmolecular technologies.
Scientists believe that before the energy state of molecules in the wave functions of different interference will not occur, and the research team found that the 10 trillionth of a second high-intensity infrared laser pulse irradiation, the wave functions of differentenergy state interference that occurs A new physical phenomena. This interference canthe wave function of the intramolecular complex intensity changes, and thus can be successfully read information from the outside.
New results mean that the future of this technology may be the molecular basis of the computer technology, the research team will be on solid and liquid in the clutter of thewave function recovery test in order to establish the molecular basis of computertechnology.
Par yeluo - 0 commentaire(s)le 30 avril 2011

Recherche sur NoxBlog

Connexion à NoxBlog.com

Nom d'utilisateur
Mot de passe
Toujours connecté
 

Inscription sur NoxBlog


Adresse du blog
.noxblog.com

Mot de passe

Confirmation

Adresse email valide

Code de sécurité anti-spam

Code anti-bot

J'accepte les conditions d'utilisation de NoxBlog.com