足彩能网上投注吗

足彩能网上投注吗 概況 研究隊伍 科研成果 人才教育 院地合作 國際交流 黨建 產業 期刊
  專題足彩能网上投注吗   |  專題簡介  |  議題預告    
 
尚光·物理第四期:非線性光學
信息來源: 發布時間: 2020年01月09日 【 】 【打印】 【關閉

  SHIJIAN:2020NIAN1YUE13RI——14RI

 

  DIYIJIANG:1YUE13RI SHANGWU9:00——12:00

  QIUJIANRONG,ZHEJIANGDAXUEJIAOSHOU,WEINAGUANGZIXUEYANJIUSUOSUOCHANG,XIANDAIGUANGXUEYIQIGUOJIAZHONGDIANSHIYANSHIFUZHUREN。2001NIANHUOGUOJIAJIECHUQINGNIANJIJIN。2008NIANRUXUANJIAOYUBU“CHANGJIANGXUEZHE”TEPINJIAOSHOU。JIAOYUBUCHUANGXINTUANDUIDAITOUREN。JIANRENGUOJIBOLIXIEHUILISHI,ZHONGGUOGUISUANYANXUEHUITEZHONGBOLIFENHUIFULISHICHANG。QIJINWEIZHIFABIAOSCISHOULULUNWEN500YUPIAN(GUOJIQUANWEIQIKANRUNature Photonics, Adv. Mater., J. Am. Chem. Soc., Angew. Chem. Int. Ed., Phys. Rev. Lett., Nano Lett.DENGYINGXIANGYINZIDAYU3DE300YUPIAN),BEISCITAYIN20000YUCI。1999NIANHUORIBENXITUXUEHUIZULIJIANG(MEINIAN1MING)。2005NIANHUODEGUOAbbeJIJINGUOJIOtto-SchottYANJIUJIANG,2007NIANHUORIBENTAOCIXIEHUIXUESHUJIANG,2015NIANHUOMEIGUOTAOCIXIEHUIG. W. Morey JIANG(ZHONGGUOKEXUEJIASHOUCI)。JIANRENLEZHONGGUOJIGUANGZAZHISHEJIGUANGYUGUANGDIANZIXUEJINZHANZHIXINGZHUBIAN,ZHONGGUOGUISUANYANXUEBAO、J. Non-Cryst. Solids, Int. J. Appl. Glass Sci., Frontires in Materials-Glass ScienceDENGQIKANDEFUZHUBIANHUOBIANWEI。MEIGUOTAOCIXIEHUIHEMEIGUOGUANGXUEXUEHUIFellow。 

  

  TIMU:JIGUANGYOUDAODERUOGANFEIXIANXINGXIANXIANGHEYINGYONG

  DIDIAN:SHANGHAIGUANGJISUO YIZHITING

  ZHAIYAO:BENBAOGAOJIANGJIESHAOJIGUANGYOUDAODESHANGZHUANHUANFAGUANG,YAWENTAIHEWENTAIWEINAJIEGOUXINXIANXIANGDEWULIJIZHIYIJIZAIJICHENGGUANGDIANZIQIJIANZHONGDEYINGYONG。

 

  

    

 

  DIERJIANG:1YUE13RI XIAWU 2:00——5:00

  CHENXIANFENG,SHANGHAIJIAOTONGDAXUETEPINJIAOSHOU,GUOJIAJIECHUQINGNIANJIJINHUODEZHE,KEJIBUZHONGQINGNIANKEJICHUANGXINLINGJUNRENCAI,SHANGHAISHIYOUXIUXUESHUDAITOURENDENG。XIANGSHOUZHENGFUTESHUJINTIE。DANRENZHONGGUOGUANGXUEXUEHUIJICHUGUANGXUEWEIYUANHUIFUZHUREN。ZAIGUOQUERSHIJINIANZHONGKAIZHANLEFEIXIANXINGGUANGXUE、NAMIGUANGZIXUE、LIANGZIGUANGXUE、GUANGDIANZIQIJIANDENGFANGXIANGDEYANJIU。ZAINature、Nature Photonics, Physical Review Letters,Optics LettersDENGBENLINGYUGUOJIZHONGYAOSCIKANWUSHANGFABIAOLUNWEN302PIAN,SCIYINYONG3200YUCI。2010NIANYOUYUZAIZHUNXIANGWEIPIPEIFEIXIANXINGGUANGXUEHEGUANGYUNAMIJIEGOUCAILIAOXIANGHUZUOYONGFANGMIANDEGONGXIANHUODEYATAIWULIXIEHUILIANHEHUIYANGZHENNINGJIANG(AAPPS,C. N. Yang Award)。XIANRENSHANGHAIJIAOTONGDAXUEWULIYUTIANWENXUEYUANGUANGKEXUEYUJISHUYANJIUSUOSUOCHANG。

  題目:非線性光學及其研究進展

  DIDIAN:SHANGHAIGUANGJISUO YIZHITING

  ZHAIYAO:BAOGAOJIANGFENWEILIANGGEBUFEN,DIYIBUFENJIESHAOFEIXIANXINGGUANGXUEPINLVBIANHUANDEJIBENYUANLI、MIANLINDETIAOZHANYIJIKETIZUZAISANWEIFEIXIANXINGGUANGXUECAILIAOZHONGPINLVZHUANHUANDELILUNYANJIUJINZHAN。DIERBUFENJIEHEXINCAILIAO、XINYUANLIHEXINYINGYONG,JIESHAOKETIZUZAIFEIXIANXINGJIEZHIBIAOMIAN、SUIJIFEIXIANXINGCAILIAO、ZHENKONGZIWAIJIGUANG、GUANGCHANGDIAOKONG、LIANGZIGUANGXUEYIJIJICHENGGUANGZIXUEDENGFANGMIANDEJICHUHEYINGYONGJICHUYANJIUZHONGDEZUIXINYANJIUJIEGUO。

 

  

  

  

  DISANJIANG:1YUE14RI SHANGWU9:00——12:00

  XIAOYUNFENG,BEIJINGDAXUEBOYATEPINJIAOSHOU,CHANGJIANGTEPINJIAOSHOU。YU2002NIANHE2007NIANZAIZHONGGUOKEXUEJISHUDAXUEWULIXIFENBIEHUODEWULIXUESHIHEBOSHIXUEWEI;SUIHOUFUMEIGUOSHENGLUYISIHUASHENGDUNDAXUECONGSHIBOSHIHOUYANJIU;2009NIANHUIDAOBEIJINGDAXUEWULIXUEYUANGONGZUO,LIRENCHANGPINFUJIAOSHOU、CHANGPINJIAOSHOU。ZHUYAOCONGSHICHAOGAOPINZHIYINZIGUANGXUEWEIQIANGDESHIYANHELILUNYANJIU。JINNIANLAI,YIZHUYAOZUOZHEZAIScience、Nature Photonics、PNAS、Physical Review LettersHEAdvanced MaterialsDENGGUOJIZHONGYAOZAZHIFABIAOYANJIULUNWEN150YUPIAN,TAYIN4000YUCI,hYINZI40。YANJIUCHENGGUOLIANGCIRUXUAN“ZHONGGUOGAOXIAOSHIDAKEJIJINZHAN”(2014、2017)。HUODIBAJIERAOYUTAIJICHUGUANGXUEJIANGYIDENGJIANG(2013)、WANGDAHENGZHONGQINGNIANKEJIRENYUANGUANGXUEJIANG(2017)、JIAOYUBUQINGNIANKEXUEJIANG(2018)、RAOYUTAIWULIJIANG(2018-2019);BEIXUANWEIMEIGUOGUANGXUEXUEHUIHUISHI(OSA Fellow,2019)。

  TIMU:CHAOGAOQZHIWEIQIANGGUANGXUEHEGUANGZIXUE

  DIDIAN:SHANGHAIGUANGJISUO19HAOLOUSANLOUHUIYISHI

  ZHAIYAO:

  Confinement and manipulation of photons using microcavities have triggered intense research interest in both fundamental and applied photonics for more than two decades. Prominent examples are ultrahigh-Q whispering gallery microcavities which confine photons by means of continuous total internal reflection along a curved and smooth surface. The long photon lifetime, strong field confinement, and in-plane emission characteristics make them promising candidates for enhancing light-matter interactions on a chip. In the first part of this talk, I will introduce some representative photonics applications of ultrahigh-Q microcavities. In the second part, I will focus on (1) chaos-assisted momentum transformation in an asymmetrical microcavity, (2) spontaneous symmetry breaking of optical fields in a single ultrahigh-Q microcavity, and (3) second-order nonlinear optics induced by symmetry breaking at the surface of a silica microcavity under a sub-milliwatt continuous-wave pump.

 

  DISIJIANG:1YUE14RI XIAWU2:00~5:00

  CHENGYA, SHANGHAIGUANGJISUOYANJIUYUAN, HUADONGSHIFANDAXUEWULIYUDIANZIKEXUEXUEYUANYUANCHANG, GUOJIAJIECHUQINGNIANJIJINXIANGMUHUODEZHE, GUOJIAKEJIBUZHONGDIANYANFAXIANGMUSHOUXIKEXUEJIA。

 

  TIMU: GUANGXUEZHONGDEJIDUANFEIXIANXINGXIANGHUZUOYONG: RUHEDAILAIWANYIZHIZHUCHANYEZHONGDEBIANGE

  DIDIAN:SHANGHAIGUANGJISUO YIZHITING

  ZHAIYAO: WOMENTAOLUNYINGYONGCHAOKUAIJIGUANGYUWUZHIXIANGHUZUOYONGZHONGDEJIDUANFEIXIANXINGXIAOYING, CHANSHENGGONGNENGWEIJIEGOUYUWEIXINPIAN, CONGERDAIDONGXINXIYUHUAGONGCHANYEZHONGDESHENGJIYUBIANGE。

 

  

  

  


文章評論
附件列表:
 
版權所有 ?2009 中國科學院上海光學精密機械研究所
主辦:中國科學院上海光學精密機械研究所 上海市嘉定區清河路390號(201800)
轉載本站信息,請注明信息來源和鏈接。