Iququzelelwe yiMesse Munich (Shanghai) Co., LTD., ihlabathi le-18 leLaseriifotonikiiChina iza kubanjelwa kwiiHolo ze-W1-W5, OW6, OW7 kunye ne-OW8 zeZiko leMiboniso yeHlabathi elitsha laseShanghai nge-20-22 kaMatshi 2024. Ngomxholo othi “UbuNkokheli beSayensi neTekhnoloji, iKamva eliKhazimlayo”, iMiboniso ayizukuhlanganisa kuphela iinkampani eziphambili kunye netekhnoloji kwi-laser, i-optics kunyei-optoelectronicsamashishini, kodwa ikwabonisa iimveliso ezininzi ezintsha kunye nezisombululo, ichaza indlela eya kuphuhliso lwexesha elizayo lwehlabathiimboni ye-optoelectronics.
Iikristale ze-optical ezibhityileyo kakhulu zikhokelela kuphuhliso olunamandla lwetekhnoloji ye-photoelectric kuzo zonke iinkalo
Njengenyathelo elibalulekileyo kuphuhliso lwetekhnoloji yelaser, impumelelo yophando kunye nophuhliso lweekristale ze-optical ezibhityileyo kakhulu ifake ithemba kunye namathuba kwishishini le-photoelectric, yandisa ngakumbi imveliso yezixhobo ze-optical, izixhobo ze-optical kunye nezinye iimarike.i-opticalIqonga lomboniso, iMunich Shanghai Optical Fair ibonelela ngomboniso wemveliso kunye nobuchwepheshe obugubungela lonke uthotho lweshishini le-optical. Lo mboniso uza kugxila kwiindawo ezibalulekileyo ezifana nezixhobo/izixhobo ze-optical, izixhobo zokucubungula ubushushu be-optical, izixhobo zovavanyo/ukuchaneka kwe-optical, kunye neelensi zekhamera, kwaye uzimisele ukukhuthaza uphuhliso olusemgangathweni ophezulu lweshishini kunye nokunceda ekudaleni i-ecology entsha yemizi-mveliso.
Amandla aphezulu asebenzayoiileyiza zefayibhakhokela inguqu entsha yezoshishino
Itekhnoloji ye-laser yefayibha enamandla aphezulu yenye yezona ndlela zidumileyo zophando kwicandelo leiteknoloji ye-optoelectronicekhaya nakwamanye amazwe kwiminyaka yakutshanje, kwaye ineemfuno ezininzi kwiindawo zokhuselo lwemizi-mveliso nolwemikhosi. Xa kuthelekiswa nee-laser zemveli ze-solid-state, ii-laser zefayibha zineengenelo ezininzi, ezinje ngokusebenza kakuhle, ukuzinza okuphezulu, umgangatho ophezulu wemitha, ukuzinza okungcono kunye nokuthembeka. Amandla okukhupha ale laser angaba phezulu njengenqanaba le-kilowatt, okanye ngaphezulu nangakumbi, okuvumela ukucutshungulwa kunye nokuveliswa okusebenzayo nokuchanekileyo. Ngophuhliso oluqhubekayo kunye nokuphuculwa kwetekhnoloji, le teknoloji yenze iimpumelelo ezininzi kwiitekhnoloji ezininzi eziphambili kunye nezinto eziphambili, kwaye yenze uphuhliso olukhawulezileyo kwizicelo zoshishino. Ikhonkco elipheleleyo lemizi-mveliso ligubungela izixhobo, izinto,iileyiza, iinkqubo zelaser, kwaye isetyenziswa kakhulu kumacandelo emizi-mveliso, ezonyango, uphando lwenzululwazi, ezomkhosi kunye nezokhuselo lwesizwe nakwamanye amacandelo. Nika inkxaso enamandla kuphuhliso olukhawulezileyo lwemveliso ephucukileyo, ukwenziwa kweenqwelo-moya, amandla, iimoto kunye namanye amacandelo.
Amakhulu amashishini amatsha ahlanganisene ukubonisa amandla amatsha oshishino lwe-photoelectric lwehlabathi
Ihlabathi leLaser lalo nyakaiifotonikiI-China itsale inxaxheba esebenzayo yamashishini amatsha angaphezu kwama-200, azise ubuchwepheshe obuphambili kunye neemveliso ezintsha, kwaye afaka umsinga ozinzileyo wobomi kwishishini le-photoelectric. Ukongezwa kwala mashishini matsha akupheleli nje ekongezeni umbala kumboniso, kutyebise uluhlu lwababonisi, kodwa kuzisa namathuba angenamkhawulo kunye namathuba okuchuma nophuhliso lweshishini le-photoelectric. Kwangaxeshanye, umboniso unoluhlu oluqinileyo lwababonisi bamazwe ngamazwe, i-13% yababonisi abavela eMelika, eJamani, eJapan, eSwitzerland, eFrance, eUnited Kingdom, eMzantsi Korea nakwamanye amazwe. Kubalulekile ukukhankanya ukuba iMunich Shanghai Light Fair yalo nyaka ikwazise ukubonakala okutsha kweI-Beijing Conquer Photonics Co., Ltd., iZiko le-HangzhouI-Opticskunye nePrecision Machinery, ipolymerization Photonics, iChina Building Materials Science Research Institute Co., LTD., kunye namanye amashishini, baya kuba yinkangeleko entsha kunye nesimo sengqondo, bafake amandla amatsha kumboniso, kwaye bakhuthaze ngokubambisana inkqubela phambili kunye nophuhliso lweshishini le-photoelectric.
Itekhnoloji yokukhanya kunyeiteknoloji yelaserzidlala indima ebalulekileyo kuvavanyo lwe-semiconductor, ukwenziwa kweetship, ukuveliswa kwezithuthi zamandla amatsha kunye nezinye iinkalo, ezikhuthaza kakhulu ukwakhiwa kolwazi lwesizwe kunye nophuhliso loqoqosho. Le ngqungquthela yetekhnoloji ye-optical iza kuhlola iindawo ezishushu ngokunzulu, kwaye iza kuhlanganisa iingcali ezaziwayo kunye neengcali kunye neenkokheli zoshishino ezivela kwi-laser, i-optical, i-infrared kunye nezinye iinkalo ukuze zithethe ngemeko yexesha elizayo yeshishini le-photoelectric, idibanise ngokusondeleyo isayensi, uphando kunye nophuhliso kunye nezicelo zoshishino, inike inkxaso yesayensi yethiyori yokuzoba iplani yophuhliso lweshishini, kwaye inike ixabiso elisebenzisekayo elikhethekileyo kuphuhliso lweshishini. Kwangaxeshanye, kufanelekile ukukhankanya ukuba le ngqungquthela yongeze ubuchwepheshe obuphambili obufana netekhnoloji ye-computational optical imaging kunye neendawo ze-optical ezakhiwe kakhulu. Ngokwenza ngcono i-optics kunye ne-signal processing, itekhnoloji ye-computational optical imaging ifezekisa ukufunyanwa kolwazi oluphezulu, kwaye iba sisitshixo se-photoelectric imaging ukuba ingene kwixesha lolwazi. Nangona kunjalo, umphezulu we-optical we-ultrastructural unokulawula ukuziphatha kokukhanya nge-microstructure yayo yexesha ukusuka kwinqanaba le-nanometer ukuya kwinqanaba le-micron, kwaye ifezekise ukubonakaliswa okanye ukudluliselwa okukhethayo, okudlala indima ebalulekileyo kwicandelo le-spectral imaging kunye nohlalutyo. Ingxoxo enzulu kunye nokubonakaliswa kwezi teknoloji zimbini kuya kuzisa ulwazi oluphambili kubaphulaphuli, kukhuthaze ukutshintshiselana ngamava kushishino, kwaye kwabelwane ngeziphumo zophando zamva nje.
Ixesha leposi: Matshi-25-2024