{"code":0,"message":"成功","totalNum":0,"result":{"docId":"101002026063070000055","docLibId":3,"headLine":"研究人员借助AI技术发现两种新型超导体","productCategoryId":"c0030002,c0030015,c0030016,c0030017,c0030173,c0030322","productCategoryName":"通稿新闻线路,海外中文专线,BL广播,中文亚太线,新媒体专线,新华社客户端","authors":"朱昊晨,徐谦","authorsEn":"Zhu Haochen,Xu Qian","authorsId":"zhuhaochen,unreguser","geographyCategoryId":"","columnCategoryId":"<100001><c0030002><c0030002011>,<100004><c0030173><c0030173028>,c0030322322,<100004><c0030322><c23046><c0030322206>,<100001><c0030015>,<100001><c0030016>,<100001><c0030017>","organizationId":"c0241000","newsCategoryId":"c0270121","content":"　　新华社赫尔辛基7月6日电（记者朱昊晨　徐谦）芬兰阿尔托大学参与的一个国际研究团队利用人工智能（AI）发现两种新型超导体，为更高效筛选和研发超导材料提供了新的技术路径。这一成果有助于加快新型超导体研发进程，为寻找可在室温下工作的超导材料带来新的希望。","keywords":"芬兰,人工智能,超导体","wordCount":730,"languageId":"zh-CN","symbol":"XxjidoC000012_20260706_CBTFN0.xml","broadcastDate":"2026-07-06 12:41:26","broadcastDateTimestamp":1783312886000,"mediaTypeId":"Text","happenPlace":"","reportPlace":"","tagKeywords":"超导体,超导性,计算量,AI技术,预筛选,芬兰阿尔托大学,能量损耗,核聚变,普通导体,神经系统,冷却成本,数据中心,电力传输,磁悬浮,物理评论·研究","photoPlateNum":"","pixelHeight":null,"pixelWidth":null,"duration":null,"guidePrice":0,"previewUrl":null,"playUrl":null,"newsCategoryIdTop":"c0270121","isBought":false,"showPercentVideo":0.5,"isOrdered":false,"isCollected":false,"isViewed":false,"isDownloaded":false,"isLiked":false,"downloadCount":null,"collectedCount":null,"viewedCount":null,"tagJson":"","notionalArea":"","internalName":"国际新闻","issuerDeptId":"","issuerDept":"国际部-发稿中心","sharelink":null,"docSource":null,"attach":[],"album":null,"ordered":false,"id":"111002026070600004308","downloaded":false,"liked":false,"bought":false,"collected":false,"viewed":false}}