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Tunel dug 27 km i dubok 175 m: CERN isključuje akcelerator čestica za 4 godine
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Tunel dug 27 km i dubok 175 m: CERN isključuje akcelerator čestica za 4 godine

The Large Hadron Collider (LHC) at CERN, the European Organization for Nuclear Research, will temporarily shut down for four years starting in 2026 to undergo a major upgrade known as the High-Luminosity LHC. This project aims to increase the collider’s luminosity by ten times, allowing scientists to study rare and complex physical phenomena in the universe. The upgrade involves extensive engineering work, particularly in a two-kilometer section of the underground tunnel housing the Atlas and CMS detectors. Before the upgrade can begin, engineers must safely drain and store over 100 tons of liquid helium used to maintain superconductivity, a process expected to take at least a month. The upgraded LHC is anticipated to operate until 2040. Even during this shutdown, CERN will continue providing heat energy to the local district heating network as a byproduct of maintaining essential systems.

Europska organizacija za nuklearna istraživanja, poznata kao CERN, objavila je da će njen vodeći objekat, Veliki hadronski sudarač (LHC), privremeno obustaviti rad na razdoblje održavanja i poboljšanja od četiri godine.

U središtu ove transformacije leži ambiciozna inicijativa poznata kao High-Luminosity LHC (HL-LHC). 2-kilometarski segment 27-kilometarskog prstenca gdje se provode kritični eksperimenti. Primarni cilj je povećati svjetlost - brzinu na kojoj se događaju sudari čestica - za faktor deset. Očekuje se da će ovo poboljšanje generirati eksponencijalno veće količine podataka, što će potencijalno dovesti do revolucionarnih otkrića u fizici čestica. Nadogradnja uključuje ugradnju naprednih superprovodnih magneta i zamjenu brojnih komponenti, osiguravajući da sudarač može održavati veće razine energije uz održavanje stabilnosti i učinkovitosti.

Prije nego što se ova nadogradnja može započeti, mora se provesti vrlo pažljiv proces. Inženjeri će najprije morati isprazniti i sigurno zagrijati sustav, koji se oslanja na otprilike 100 tona tekućeg helija koji se održava na ultra-hladnoj temperaturi od -271 ° C. Samo ovaj proces hlađenja zahtijevat će nekoliko tjedana, tijekom kojih će vanjske specijalizirane tvrtke pomoći u upravljanju opskrbom helijumom.

Ova pauza u radu dolazi nakon desetljeća pionirskog napretka u fizici čestica. Od svog osnivanja 1954. godine, CERN je dosljedno pomakao granice ljudskog znanja. Jedno od njegovih najznačajnijih postignuća bila je potvrda postojanja Higgsovog bozona u srpnju 2012. godine, događaj koji je revolucionirao naše razumijevanje kako čestice stječu masu. Sada, HL-LHC ima za cilj izgraditi na ovom nasljeđu omogućavajući još preciznije i češće interakcije čestica, nudeći uvide u pojave koji ostaju neuhvatljivi, kao što su tamna tvar i tamna energija.

Dok će LHC biti isključen, neke bitne funkcije će se nastaviti. Ključni sustavi će ostati aktivni kako bi se osiguralo kontinuirano funkcioniranje vitalne potporne infrastrukture, uključujući mehanizme hlađenja i napajanje. Ovi sustavi će pridonijeti lokalnim grijačkim mrežama, pružajući toplinu obližnjim zajednicama tijekom hladnijih mjeseci. Međutim, ovaj doprinos će se privremeno smanjiti, što će utjecati na raspodjelu energije u regiji nekoliko mjeseci.

Financijska obveza potrebna za ovu nadogradnju je značajna, procjenjuje se na oko 1,2 milijarde švicarskih franaka. Financiranje će prvenstveno doći od država članica CERN-a, uz doprinos u naravi od međunarodnih partnera, uključujući Sjedinjene Države, Japan, Kanadu i Kinu. Projekt također predviđa integraciju najsavremenijih tehnologija, poput umjetne inteligencije, za upravljanje ogromnim količinama podataka proizvedenih povećanim stopama sudara.

Kako počinje odbrojavanje do privremenog zatvaranja LHC-a, globalna znanstvena zajednica nestrpljivo očekuje rezultate ove transformacijske faze.

3 izvještaja

Phys.org logoPhys.orgNeovisanSredinaČinjenice 95Objektivnost 80prije 6 dana
World's largest particle smasher halts for upgrade to boost hunt for dark matter

The Large Hadron Collider (LHC), located at CERN near Geneva, will undergo a four-year shutdown beginning Monday for major upgrades aimed at enhancing its capabilities in the search for dark matter. The upgraded version, called the High Luminosity LHC (HL-LHC), is expected to significantly increase the number of particle collisions, aiming for a tenfold rise in luminosity compared to the current LHC. This enhancement will enable scientists to collect up to 100 times more data, potentially leading to new discoveries in fundamental physics. The project, costing approximately $1.5 billion, involves replacing critical components in parts of the collider and integrating advanced technologies such as artificial intelligence to manage the vast amount of data generated. The HL-LHC is anticipated to resume operations in 2030.

Procjena pristranosti (Sredina): The article discusses scientific advancements and technical upgrades related to the Large Hadron Collider, focusing on its role in exploring dark matter and improving experimental capabilities. It provides factual information about the project's goals, costs, and technological innovations without明显的

Zašto ove ocjene (Činjenice 95 · Objektivnost 80): Provides precise technical details and aligns well with cross-source consensus on the shutdown, upgrade goals, and timeline. Objectivity is slightly lower due to emphasis on dark matter research, though remains generally neutral.

Dnevnik logoDnevnikNeovisan🔒SredinaČinjenice 90Objektivnost 85prije 5 dana
Tunel dug 27 km i dubok 175 m: CERN isključuje akcelerator čestica za 4 godine

The Large Hadron Collider (LHC) at CERN, the European Organization for Nuclear Research, will temporarily shut down for four years starting in 2026 to undergo a major upgrade known as the High-Luminosity LHC. This project aims to increase the collider’s luminosity by ten times, allowing scientists to study rare and complex physical phenomena in the universe. The upgrade involves extensive engineering work, particularly in a two-kilometer section of the underground tunnel housing the Atlas and CMS detectors. Before the upgrade can begin, engineers must safely drain and store over 100 tons of liquid helium used to maintain superconductivity, a process expected to take at least a month. The upgraded LHC is anticipated to operate until 2040. Even during this shutdown, CERN will continue providing heat energy to the local district heating network as a byproduct of maintaining essential systems.

Procjena pristranosti (Sredina): The article discusses a scientific upgrade to the LHC at CERN, focusing on technical details, timelines, and the scientific goals of the project. There is no political framing, controversy, or ideological emphasis present in the content.

Zašto ove ocjene (Činjenice 90 · Objektivnost 85): Accurately reports the shutdown, upgrade details, and timeline, consistent with other sources. Maintains a neutral tone throughout, focusing on facts without added commentary or bias.

Perfil logoPerfilNeovisanSredinaČinjenice 85Objektivnost 70prekjučer
Isključit će detektor "Božje čestice" kako bi ga učinili deset puta snažnijim: kako će izgledati novi akcelerator

The Large Hadron Collider (LHC), the world's most powerful particle accelerator located at the European Organization for Nuclear Research (CERN), has been shut down for a four-year upgrade period. This maintenance phase aims to enhance the collider’s capabilities by increasing its 'luminosity,' which refers to the number of particle collisions per second in a specific area of the detector. Once completed, the upgraded version—known as the High-Luminosity LHC—will generate up to ten times more luminosity and collect approximately 100 times more data compared to previous phases. The project is expected to resume operations gradually starting in 2028, with initial collisions anticipated around 2030. Scientists believe this technological advancement will allow deeper exploration of the universe's fundamental structure.

Procjena pristranosti (Sredina): The article focuses on scientific advancements related to the Large Hadron Collider and does not present any political opinions, biases, or controversial framing. It provides factual information about the shutdown and upgrade process without taking a stance or emphasizing any particular ideological,

Zašto ove ocjene (Činjenice 85 · Objektivnost 70): Factual accuracy is high, aligning with cross-source consensus on the shutdown, upgrade timeline, and purpose of the High Luminosity LHC. However, the inclusion of an unrelated paragraph about 'authoritarians' introduces bias and reduces objectivity.

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