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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/82233


    Title: 渺子成像術於粒子地球科學之應用與下一世代的高能物理實驗;Muon Imaging for Particle Geophysics and the Next Generation of High Energy Physics Experiment( I )
    Authors: 郭家銘;陳建志;林志勳;林祐生;葉榮輝
    Contributors: 國立中央大學物理學系
    Keywords: 渺子成像術;大強子對撞機;希格斯粒子;矽探測器;未來對撞機;Muography;LHC;Higgs;Silicon detector;future collider
    Date: 2020-01-13
    Issue Date: 2020-01-13 14:28:40 (UTC+8)
    Publisher: 科技部
    Abstract: 渺子成像術是利用宇宙射線中的渺子刻畫各種複雜的內部結構,近年來愈來愈多渺子成像術應用於傳統成像術無法發揮的場合。在此計畫中,我們將開啟粒子物理學和地質物理學結合的跨領域研究,讓近來蓬勃發展的粒子地質物理研究領域導入台灣,並提升我國於此新興研究領域的能見度。我們將探索幾個和台灣相關的山崩和地熱場址。另一個研究方向,我們提議持續於大強子對撞機的CMS實驗探索新物理現象,並且進行矽探測器的研發為參與下一世代的高能粒子加速器作準備。我國已投入二十年的科研經費於CMS實驗,而大強子對撞機也將至少運轉至2040年,因此長期參與CMS實驗上豐富且多元的物理分析是必要的。另外,我們也需在下一世代的加速器來臨之前作好準備。在未來不同的加速器計畫中,希格斯粒子工廠是最可能率先開始。過去,在中央大學我們有許多成功設計及製造矽晶片並應用於粒子物理實驗的例子。因此,我們提議為希格斯粒子工廠研發及製造矽晶片,並且建造矽探測器原型。本計畫將進行我國首度的地球科學與高能物理的跨領域研究,將渺子成像術應用於與台灣本土相關的地球科學研究議題。此將可提昇我國在此新興跨領域研究的能見度,並為未來此成像術於台灣進行加深加廣應用時奠定基礎。本計畫也將進行矽探測器晶片的研發及不同矽探測器原型建造,此將可增強我國在未來高能物理實驗探測器物理的領導地位。而本計畫發展渺子成像術所需之渺子探測器亦可與本計畫所要研發的矽探測器相輔相成,有機會組合成一新穎的電磁量能器。掌握兩種不同探測器技術,將可使中大高能物理團隊在下一世代加速器中極為重要的探測器設計研究項目上取得重要的發言權。另外,本計畫也將持續在大強子對撞機的實驗大數據中進行資料探勘,尋找新物理現象,並且利用人工智慧與機器學習等技術提升探索新物理的靈敏度。 ;Muography is an imaging technique that uses the cosmic ray muons to characterize a diverse range of complex structures. More and more its applications are emerging to image the structures that cannot be imaged using conventional techniques. We propose an interdisciplinary research project to put particle physics and geophysics together to start the research of particle geophysics in Taiwan for the first time and increase the visibility of Taiwan in this emerging field. We aim to explore a few landslide and geothermal issues concerning Taiwan. Another research domain we propose is to continue exploring new physics in CMS at LHC and work on the silicon detector R&D for future collider. We have invested the CMS experiment for 20 years and LHC will run until 2040 so the long-term participation in the rich physics programs in CMS is essential. On the other hand, we should be well prepared when the next collider comes. Among the different future collider projects the Higgs factory is the best candidate to start first. In addition, the silicon detectors have played important roles in high energy physics experiments. We had the successful experiences with the silicon sensor manufacturing in NCU. We target to develop silicon sensors and build the silicon detector prototype for the Higgs factory.
    Relation: 財團法人國家實驗研究院科技政策研究與資訊中心
    Appears in Collections:[物理學系] 研究計畫

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