Torna indietro   Hardware Upgrade Forum > Off Topic > Discussioni Off Topic > Scienza e tecnica

Redmi Pad 2 9.7: ampio display, economico e peso contenuto, ma qualche limite nelle prestazioni
Redmi Pad 2 9.7: ampio display, economico e peso contenuto, ma qualche limite nelle prestazioni
Redmi Pad 2 9.7 punta su un display ampio e fluido, una batteria capace di accompagnare l'uso quotidiano senza ansie da ricarica e un prezzo accessibile, a partire da 179,90 euro per la versione con 64 GB di storage. Lo Snapdragon 6s 4G Gen 2 e i 4 GB di RAM della configurazione più diffusa frenano però chi cerca reattività e multitasking spinto: ecco il bilancio dopo due settimane di prova diretta
Peugeot Polygon Concept: ecco il futuro delle utilitarie
Peugeot Polygon Concept: ecco il futuro delle utilitarie
Polygon è la concept car di Peugeot che mostra il futuro delle soluzioni del segmento B: tra design compatti e innovativi affiancati da dimensioni compatte uno scherzo dalla manovrabilità incredibile per le manovre a bassa velocità
Reno16 Pro: il compatto di OPPO punta su fotocamera da 200MP e il nuovo Bubble! La recensione
Reno16 Pro: il compatto di OPPO punta su fotocamera da 200MP e il nuovo Bubble! La recensione
OPPO ha portato in Italia, dal 1° luglio 2026, Reno16 Pro: display AMOLED da 6,32 pollici a 144Hz, tripla fotocamera con sensore principale da 200 megapixel, chip Dimensity 8550 Super e batteria da 6000mAh, al prezzo di lancio di 899 euro. Lo abbiamo provato per due settimane insieme al nuovo accessorio Bubble, per capire se la formula compatta della serie regge ancora di fronte a un listino da 1099 euro
Tutti gli articoli Tutte le news

Vai al Forum
Rispondi
 
Strumenti
Old 15-06-2010, 11:42   #1
lowenz
Bannato
 
L'Avatar di lowenz
 
Iscritto dal: Aug 2001
Città: Berghem Haven
Messaggi: 13528
Nuovi radioisotopi scoperti

E le isotòpe?

http://physicsworld.com/cws/article/news/42915



The chart of the known nuclides has been extended significantly by physicists in Japan, who have discovered 45 new neutron-rich isotopes. The nuclei were spotted at the RIKEN laboratory by smashing a powerful beam of heavy ions into beryllium and lead targets.
The researchers say that the 45 are just a taste of what is to come, with technical improvements expected to lead to the production of thousands of new radioisotopes that should tell us more about the astrophysical processes responsible for the creation of atoms and also lead to advances in medical technology.
Radioisotopes are unstable chemical elements that have more or fewer neutrons than the stable forms of these elements. Physicists have been producing them using particle accelerators since the 1980s, but a new generation of radioactive beam facilities will hugely extend the number of known radioisotopes. Measurements of properties such as the lifetimes and masses of these nuclei will improve our understanding of the structure and origin of atomic nuclei.

Separated by BigRIPS

The $0.5bn Radioactive Isotope Beam Factory (RIBF) at the RIKEN Nishina Center for Accelerator-Based Science near Tokyo is the first such facility to start operating. It uses a series of cyclotrons to accelerate beams of nuclei of any element up to uranium and then collides these nuclei with the nuclei of beryllium or lead. Fission or fragmentation reactions lead to the production of a range of neutron-rich unstable nuclei, which are then collected, separated and analysed using a superconducting instrument known as BigRIPS.
Shortly after switching on the facility in 2007, Toshiyuki Kubo and colleagues from RIKEN and other labs around the world discovered two new isotopes of palladium using a beam of uranium-238. At that stage, however, the experiment was limited by the relatively low intensity of the beam, because more neutron-rich isotopes are harder to create and require a much greater collision rate. By fine-tuning the cyclotrons, the Nishina Center's accelerator team was able to increase the intensity by a factor of 50, leading to a second experiment carried out over four days in November 2008.
For the last year and a half Kubo and co-workers have been carefully analysing the collision data from that experiment, sifting out the few events attributable to new exotic nuclei from the far larger numbers of more ordinary nuclei that were produced. Among the 45 new radioisotopes that they identified were palladium-128, which is of interest because it plays an important role in the astrophysical creation of chemical elements heavier than iron and because it has a "magic" number of neutrons (82), rendering it more stable than nuclei with slightly more or fewer neutrons. Likewise, nickel-79, which was also discovered, has a neutron number of 51, putting it just one above the neutron magic number of 50 and making it an important isotope for tests of the nuclear shell model.

Beam intensity boost needed

Similar heavy-ion facilities are also being developed in Europe and the US – the FAIR project at the GSI lab in Darmstadt, Germany, and the FRIB at Michigan State University. But these machines will not be completed for several years and so for the moment will leave the field open to the RIBF (even if FAIR, when it does start up, will probe a broader range of physics, including atomic physics, plasma physics and hadron physics). "The big advantage the Japanese have is that the machine is there now," says Bill Gelletly, a nuclear physicist at the University of Surrey. "The drawback is that they are quite slow to get the beam intensities up to the advertised levels. This limits the experiments."
Kubo acknowledges that he and his colleagues "have just started the research process". He says that the next step is to measure the lifetimes (expected to be of the order of a few tenths or hundredths of a second), decay properties, reactions and masses of the newly-created isotopes as well as discovering vast numbers of other new species. In addition to improving our understanding of nuclear physics, astrophysics and materials science, Kubo points out that the development of the new accelerators, targets and ion sources will lead to improvements in the production of radioisotopes for medical use and should, he says, also enhance cancer therapy using ion beams.
lowenz è offline   Rispondi citando il messaggio o parte di esso
Old 15-06-2010, 12:01   #2
Stellina90
Bannato
 
Iscritto dal: Jun 2010
Messaggi: 0
interessante
ma manca la lista dei radioisotopi.
Stellina90 è offline   Rispondi citando il messaggio o parte di esso
Old 15-06-2010, 14:46   #3
lowenz
Bannato
 
L'Avatar di lowenz
 
Iscritto dal: Aug 2001
Città: Berghem Haven
Messaggi: 13528
Quote:
Originariamente inviato da Stellina90 Guarda i messaggi
interessante
ma manca la lista dei radioisotopi.
Basta cercare

http://www.riken.go.jp/engn/r-world/...608/index.html

To collect, separate and identify these isotopes, the researchers made use of BigRIPS, an RI beam separator whose powerful superconducting magnets have been carefully tuned to detect even the rarest phenomena under low-background conditions. Radioisotopes discovered using BigRIPS span the spectrum from manganese (Z = 25) to barium (Z = 56) and include highly sought-after nuclei such as palladium-128, whose "magic number" of neutrons grants it surprisingly high stability.
lowenz è offline   Rispondi citando il messaggio o parte di esso
 Rispondi


Redmi Pad 2 9.7: ampio display, economico e peso contenuto, ma qualche limite nelle prestazioni Redmi Pad 2 9.7: ampio display, economico e peso...
Peugeot Polygon Concept: ecco il futuro delle utilitarie Peugeot Polygon Concept: ecco il futuro delle ut...
Reno16 Pro: il compatto di OPPO punta su fotocamera da 200MP e il nuovo Bubble! La recensione Reno16 Pro: il compatto di OPPO punta su fotocam...
 Hisense 55U7SE: tuttofare e accessibile, il MiniLED per film, sport e gioco Hisense 55U7SE: tuttofare e accessibile, il Min...
Kindle Scribe Colorsoft: riduce le cornici e diventa a colori, ma il prezzo è alto Kindle Scribe Colorsoft: riduce le cornici e div...
Utili da capogiro per Samsung, ma il mer...
Nintendo Switch, addio alle vendite in E...
Open Printer, la stampante che dice addi...
OPPO porta il K-pop a Milano: un pop-up ...
Credeva di essere invisibile con VPN e t...
Oggi su Amazon si compra un iPhone nuovo...
Il futuro iPhone Air 2 vuole sorprendere...
Xbox Game Pass Essential: arrivano 5 nuo...
NVIDIA: la roadmap di Rubin e Kyber rest...
Altro che killer di posti di lavoro: chi...
Bentley presenta il suo primo SUV elettr...
Il diario di Tom Riddle prende vita in v...
Sony conferma l'uso di AI generativa sui...
Le sfere metalliche trovate in Australia...
Intel cambia i piani? Il processo 14A2 p...
Chromium
GPU-Z
OCCT
LibreOffice Portable
Opera One Portable
Opera One 106
CCleaner Portable
CCleaner Standard
Cpu-Z
Driver NVIDIA GeForce 546.65 WHQL
SmartFTP
Trillian
Google Chrome Portable
Google Chrome 120
VirtualBox
Tutti gli articoli Tutte le news Tutti i download

Strumenti

Regole
Non Puoi aprire nuove discussioni
Non Puoi rispondere ai messaggi
Non Puoi allegare file
Non Puoi modificare i tuoi messaggi

Il codice vB è On
Le Faccine sono On
Il codice [IMG] è On
Il codice HTML è Off
Vai al Forum


Tutti gli orari sono GMT +1. Ora sono le: 08:40.


Powered by vBulletin® Version 3.6.4
Copyright ©2000 - 2026, Jelsoft Enterprises Ltd.
Served by www3v