Pub Date : 2023-01-02DOI: 10.1080/10619127.2023.2168918
D. Vretenar, A. Leviatan
The 10th International workshop on “Quantum Phase Transitions in Nuclei and Many-Body Systems” was held in Dubrovnik, Croatia, from 11 to 15 July 2022. This series of workshops, initiated by Rod Clark (Berkeley) and Rick Casten (Yale), was initially aimed at shape-phase transitions and critical point phenomena in atomic nuclei. It started in Berkeley in 2004 and continued in Camerino (2005), Athens (2006), Sofia (2007), Istanbul (2009), Darmstadt (2012), Seville (2014), Prague (2016), and Padova (2018). The 10th edition was organized by Prof. Dario Vretenar from the University of Zagreb, Croatia, and Prof. Amiram Leviatan from the Hebrew University of Jerusalem, Israel. The meeting was also held in honor of Prof. Francesco Iachello (Yale), a pioneer of theoretical studies of quantum phase transitions in nuclei, on the occasion of his 80th birthday. More than 70 scientists from all over the world convened for an informative and exciting workshop at the Inter University Center, an international consortium of 170 member universities, located in the historical and charming center of the city of Dubrovnik (Figure 1). A notable exception were scientists from China and Japan, who could not attend because of travel restrictions related to the COVID-19 pandemic. Nevertheless, experimental and theoretical nuclear physicists, as well as theorists working in interdisciplinary fields, held a very successful workshop and kept the informal spirit of lively discussions that represents the true success of these meetings. We note, in particular, the participation of a great number of young scientists, many of whom, after a long break from on-site meetings caused by the pandemic, finally had the opportunity to present their most recent results. Quantum phase transitions (QPTs), the subject matter of the workshop, are structural changes in a quantum system induced by variation of control parameters in the Hamiltonian. Such changes are manifested empirically in atomic nuclei in the form of the evolution of shapes as a function of nucleon number, and coexistence of different shapes in the same system. Nuclei, as composites of protons and neutrons, provide a unique laboratory for studying QPTs in a mesoscopic (finite) system governed by strong interaction. The conference program was structured into eight topical sessions organized by conveners: “Symmetries and QPTs in Nuclei” (A. Leviatan and J.M. Arias); “Empirical Aspects of QPTs in Nuclei” (N. Pietralla and R.F. Casten); “Transitional Nuclei and Shape Coexistence” (J.E. Garcia Ramos and K. Nomura); “Density Functional and Beyond-Mean-Field Approaches to QPTs in Nuclei” (D. Vretenar and T. Niksic); “Novel Aspects and Signatures of QPTs in Nuclei” (L. Fortunato and A. Vitturi); “Symmetries of Interacting Boson and/or Fermion Systems” (P. Van isacker and J. Jolie); “Clustering and Shape-Phase Transitions in Nuclei and other Physical Systems” (R. Bijker and F. Perez-Bernal); and “Excited-State QPTs” (P. Cejnar and P. St
第十届“原子核和多体系统中的量子相变”国际研讨会于2022年7月11日至15日在克罗地亚杜布罗夫尼克举行。这一系列的研讨会,由罗德·克拉克(伯克利)和里克·卡斯滕(耶鲁)发起,最初是针对原子核的形状相变和临界点现象。2004年在伯克利开始,随后在卡梅里诺(2005年)、雅典(2006年)、索菲亚(2007年)、伊斯坦布尔(2009年)、达姆施塔特(2012年)、塞维利亚(2014年)、布拉格(2016年)和帕多瓦(2018年)继续举办。第十届研讨会由克罗地亚萨格勒布大学的Dario Vretenar教授和以色列耶路撒冷希伯来大学的Amiram Leviatan教授组织。这次会议也是为了纪念原子核量子相变理论研究的先驱弗朗西斯科·亚切罗(耶鲁大学)教授80岁生日而举行的。来自世界各地的70多名科学家在国际大学中心(Inter University Center)参加了一场内容丰富、令人兴奋的研讨会,国际大学中心是一个由170所成员大学组成的国际联盟,位于杜布罗夫尼克历史悠久、魅力迷人的市中心(图1)。一个明显的例外是来自中国和日本的科学家,他们由于与COVID-19大流行相关的旅行限制而无法参加。然而,实验和理论核物理学家以及在跨学科领域工作的理论家举办了一次非常成功的讲习班,并保持了非正式的热烈讨论精神,这代表了这些会议的真正成功。我们特别注意到,许多青年科学家参加了会议,其中许多人在因大流行病而长期缺席现场会议后,终于有机会介绍他们的最新成果。量子相变(QPTs)是研讨会的主题,是由哈密顿量中控制参数的变化引起的量子系统中的结构变化。这种变化在原子核中的经验表现为形状随核子数的变化以及不同形状在同一体系中的共存。原子核作为质子和中子的复合物,为在强相互作用的介观(有限)系统中研究量子点提供了一个独特的实验室。会议计划分为八个专题会议,由召集人组织:“核中的对称性和量子点”(A.利维坦和J.M.阿里亚斯);“细胞核中QPTs的经验方面”(N. Pietralla和R.F. Casten);“过渡核和形状共存”(J.E.加西亚·拉莫斯和K.野村);“核中qpt的密度泛函和超平均场方法”(D. Vretenar和T. Niksic);“核中qpt的新方面和特征”(L. Fortunato和A. Vitturi);“相互作用玻色子和/或费米子系统的对称性”(P. Van isacker和J. Jolie);“核和其他物理系统中的聚类和形状相变”(R. Bijker和F. Perez-Bernal);和“激发态qpt”(P. Cejnar和P. Stransky)。关于qpt和形状共存的讨论集中在接近壳层闭合的核上,特别是在中子数60 (Zr, Sr同位素)附近,由vari-探索的Sn和Pb区域
{"title":"10th International Workshop on “Quantum Phase Transitions in Nuclei and Many-Body Systems”","authors":"D. Vretenar, A. Leviatan","doi":"10.1080/10619127.2023.2168918","DOIUrl":"https://doi.org/10.1080/10619127.2023.2168918","url":null,"abstract":"The 10th International workshop on “Quantum Phase Transitions in Nuclei and Many-Body Systems” was held in Dubrovnik, Croatia, from 11 to 15 July 2022. This series of workshops, initiated by Rod Clark (Berkeley) and Rick Casten (Yale), was initially aimed at shape-phase transitions and critical point phenomena in atomic nuclei. It started in Berkeley in 2004 and continued in Camerino (2005), Athens (2006), Sofia (2007), Istanbul (2009), Darmstadt (2012), Seville (2014), Prague (2016), and Padova (2018). The 10th edition was organized by Prof. Dario Vretenar from the University of Zagreb, Croatia, and Prof. Amiram Leviatan from the Hebrew University of Jerusalem, Israel. The meeting was also held in honor of Prof. Francesco Iachello (Yale), a pioneer of theoretical studies of quantum phase transitions in nuclei, on the occasion of his 80th birthday. More than 70 scientists from all over the world convened for an informative and exciting workshop at the Inter University Center, an international consortium of 170 member universities, located in the historical and charming center of the city of Dubrovnik (Figure 1). A notable exception were scientists from China and Japan, who could not attend because of travel restrictions related to the COVID-19 pandemic. Nevertheless, experimental and theoretical nuclear physicists, as well as theorists working in interdisciplinary fields, held a very successful workshop and kept the informal spirit of lively discussions that represents the true success of these meetings. We note, in particular, the participation of a great number of young scientists, many of whom, after a long break from on-site meetings caused by the pandemic, finally had the opportunity to present their most recent results. Quantum phase transitions (QPTs), the subject matter of the workshop, are structural changes in a quantum system induced by variation of control parameters in the Hamiltonian. Such changes are manifested empirically in atomic nuclei in the form of the evolution of shapes as a function of nucleon number, and coexistence of different shapes in the same system. Nuclei, as composites of protons and neutrons, provide a unique laboratory for studying QPTs in a mesoscopic (finite) system governed by strong interaction. The conference program was structured into eight topical sessions organized by conveners: “Symmetries and QPTs in Nuclei” (A. Leviatan and J.M. Arias); “Empirical Aspects of QPTs in Nuclei” (N. Pietralla and R.F. Casten); “Transitional Nuclei and Shape Coexistence” (J.E. Garcia Ramos and K. Nomura); “Density Functional and Beyond-Mean-Field Approaches to QPTs in Nuclei” (D. Vretenar and T. Niksic); “Novel Aspects and Signatures of QPTs in Nuclei” (L. Fortunato and A. Vitturi); “Symmetries of Interacting Boson and/or Fermion Systems” (P. Van isacker and J. Jolie); “Clustering and Shape-Phase Transitions in Nuclei and other Physical Systems” (R. Bijker and F. Perez-Bernal); and “Excited-State QPTs” (P. Cejnar and P. St","PeriodicalId":38978,"journal":{"name":"Nuclear Physics News","volume":"29 2 1","pages":"30 - 31"},"PeriodicalIF":0.0,"publicationDate":"2023-01-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"83965178","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-01-02DOI: 10.1080/10619127.2023.2168914
Begoña Quintana-Arnés, D. Zapata-García
Introduction Monitoring of radioactivity in air is an obligation for European Union (EU) member states following the Euratom Treaty. In this present time of climate change, combined with unrest in geographical Europe and fear of escalation, radiological preparedness is an increasingly important topic. There are several scenarios in which a nuclear disaster, of malicious nature or not, could result in a radioactive cloud being dispersed over the EU. Many laboratories and research groups from both universities and national monitoring laboratories are involved in measuring radioactivity in air. The results they produce are not solely used for understanding the local situation at their site but are integrated in the European radioactivity monitoring networks to help establish the greater picture of an event and possibly enable backtracking to the source.
{"title":"European Air Radioactivity Monitoring and the Involvement of Nuclear Physics Groups","authors":"Begoña Quintana-Arnés, D. Zapata-García","doi":"10.1080/10619127.2023.2168914","DOIUrl":"https://doi.org/10.1080/10619127.2023.2168914","url":null,"abstract":"Introduction Monitoring of radioactivity in air is an obligation for European Union (EU) member states following the Euratom Treaty. In this present time of climate change, combined with unrest in geographical Europe and fear of escalation, radiological preparedness is an increasingly important topic. There are several scenarios in which a nuclear disaster, of malicious nature or not, could result in a radioactive cloud being dispersed over the EU. Many laboratories and research groups from both universities and national monitoring laboratories are involved in measuring radioactivity in air. The results they produce are not solely used for understanding the local situation at their site but are integrated in the European radioactivity monitoring networks to help establish the greater picture of an event and possibly enable backtracking to the source.","PeriodicalId":38978,"journal":{"name":"Nuclear Physics News","volume":"44 1","pages":"23 - 26"},"PeriodicalIF":0.0,"publicationDate":"2023-01-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"83117445","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-01-02DOI: 10.1080/10619127.2023.2168916
In-Kwon Yoo
Yes! It was exactly what we have missed for such a long time since Strangeness in Quark Matter (SQM) 2019 in Bari. After SQM 2021, hosted by BNL colleagues (chaired by Zhangbu Xu) online-only as a bridge for the pandemic crisis, we finally got together face-to-face in Busan, Korea for SQM 2022 (see Figure 1), the 20th International Conference on Strangeness in Quark Matter, from 13 to 17 June. Thirty-nine International Advisory Committee members, 15 Regional Organizing Committee members, and 15 Local Organizing Committee members with three staffs worked tirelessly to organize this conference. Hosted by members of the Heavy Ion Meeting and Pusan National University in the Republic of Korea (South Korea) and sponsored by seven national and 10 international organizations, 362 participants (134 inperson and 228 online) from 41 countries enjoyed recent experimental and theoretical developments with social programs such as the reception dinner, the public lecture “Dr. Strange,” and the conference banquet. Despite the mild relaxation of pandemic-related restrictions during and before the conference, the LOC could not exclude online participation, even though in-person participation was strongly encouraged. Warming up with the four on-line lectures in theory and experiment for students on Sunday (12 June), nine experimental and six theoretical plenary talks introduced the most updated results on Monday. A total of 107 parallel talks in four topical sessions narrowly but smoothly proceeded on Tuesday and Wednesday morning. The 35 plenary talks, categorized into five specific topics (bulk, light/heavy flavors, resonance, detector, and others) were presented on Wednesday afternoon through Friday morning. Finally, the three extended summary and prospect talks were given by senior experts (Nu Xu, Berndt Müller, and Peter Braun-Munzinger) with active questions and discussions. The poster session was exceptionally held only in on-line booths in the late afternoon on Tuesday. Considering the 54 plenary talks and the 107 parallel contributions, the LOC expects to publish more than 160 proceedings, which is the highest number so far for an SQM Conference. Even though all contributions indicate remarkable progress continuing to be made, some unexpected new insights are being developed. For instance, the core-corona model successfully describes the experimental data from pp collisions in / INEL 0 -percentile and from PbPb collisions in centrality-percentile, respectively, with a gradual change of the ratio between core and corona contributions, which can be converted to the multiplicity of the charged particles. Regarding the anomalous chiral phenomena in the presence of strong magnetic fields, such as the CME and CMW, an integral property of QCD under conditions of chiral symmetry restoration is suggested. The isobar comparison run provided the most stringent test yet for anomalous chiral current fluctuations in heavy ion collisions, despite the existence of differ
是的!这正是自2019年在巴里举行的《夸克物质奇异性》(SQM)以来我们一直错过的东西。在由BNL同事主持(由许章步主持)的SQM 2021(仅在线举办)作为流行病危机的桥梁之后,我们终于在6月13日至17日在韩国釜山面对面地聚集在一起,参加SQM 2022(见图1),即第20届夸克物质奇异性国际会议。39名国际咨询委员会委员、15名地区组委会委员、15名地方组委会委员和3名工作人员为本次会议的举办孜孜不倦。由重离子会议成员和韩国釜山大学主办,由7个国内团体和10个国际团体赞助,来自41个国家的362名与会者(134人亲自参加,228人在线参加)通过接待晚宴、“奇异博士”公开演讲、会议宴会等社会项目,享受了最近的实验和理论发展。尽管在会议期间和之前,与大流行相关的限制略有放松,但LOC不能排除在线参与,尽管强烈鼓励亲自参与。在周日(6月12日)为学生准备的四堂理论和实验在线讲座之后,周一的九场实验和六场理论全体会议介绍了最新的结果。周二和周三上午,四场专题会议共进行了107场平行会谈,虽然进展缓慢,但进展顺利。从30日下午到25日上午举行了35场全体会议,分为散装、轻/重口味、共振、探测器等5个具体主题。最后,由资深专家(Nu Xu, Berndt m ller, Peter Braun-Munzinger)进行了三场扩展总结和展望讲座,并进行了积极的提问和讨论。周二下午晚些时候,海报发布会只在网上展位举行。考虑到54场全体会议和107项平行贡献,LOC预计将发表160多份会议记录,这是迄今为止SQM会议的最高数量。尽管所有的贡献都表明正在继续取得显著进展,但一些意想不到的新见解正在形成。例如,核-电晕模型成功地描述了pp碰撞在/ INEL 0 -百分位数和PbPb碰撞在中心性百分位数的实验数据,其核心和电晕贡献的比值逐渐变化,可以转化为带电粒子的多重性。对于CME和CMW等强磁场存在下的异常手性现象,提出了手性对称性恢复条件下QCD的积分性质。尽管在公开讨论中存在不同的解释可能性,但等压线比较运行为重离子碰撞中的异常手性电流波动提供了迄今为止最严格的测试。在(反)轻超核产生的新测量中,报告了相当丰富的结果,首次观测到Λ 4 H,并且使用先进硅探测器技术的雄心勃勃的挑战看起来很有希望打开一个新时代,不仅有丰富的数据统计,而且在未来的重离子碰撞设施中进行精确测量。除了在最后的会议上,参与者之间关于我们在哪里和去哪里的许多有趣的讨论,以及一些当地的社会活动
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Pub Date : 2023-01-02DOI: 10.1080/10619127.2023.2168926
P. Ring, G. Roepke
Professor Dr. Peter Schuck, one of the leading specialists in many-body physics in nuclear and other fundamental systems, passed away on 10 September 2022, at the age of 82. He began his education at the Technical University of Munich in a group headed by Wilhelm Brenig, introducing Green’s function techniques into the description of manybody systems. Following his Ph.D., as a postdoc at Massachusetts Institute of Technology in Boston, he worked with Felix Villars on collective vibrations and their coupling to singleparticle motion. He went to France, first to the Institut Laue Langevin and later to the IPN in Grenoble. In 1980, he joined the IPN in Orsay, where he became directeur de research at the CNRS. During his years in Grenoble, he collaborated with Peter Ring on the celebrated book The Nuclear Many-Body Problem (1980), which is still one of the most important textbooks on nuclear theory, particularly concerning many-body techniques applied to finite self-bound Fermi systems. Generations of young researchers have used this book for their work. Today it is also well known in physical chemistry and mesoscopic condensed matter physics. Schuck also worked on ideas to describe strongly interacting finite Fermi systems as a system of interacting bosons; that is, on a microscopic interpretation of the phenomenological Interacting Boson Model of Arima and Iachello that was, and is still, used worldwide with great success for the description of nuclear spectra. He also studied collective phenomena as, for example, various forms of scissor modes in deformed protonand neutron-distributions (isospin-scissors) or spin orientations (spin-scissors) that oscillate against each other. Together with groups in Barcelona, Catania, and Madrid, he developed in Paris a very successful new energy density functional (BCPM) for the universal description of nuclear systems. Schuck also worked on intermediate energy nuclear physics and was the first to predict a strong in-medium dependence of the spectral intensity of the so-called sigma meson. In addition, he developed the theory of quantum condensates and pairing. He also made important contributions to the physics of cold atoms and other problems in condensed matter. Over the years, he developed an interest in various extensions of the random phase approximation and the equationof-motion method. Since 2000, Schuck became well known in relation to the theory of alpha particle condensation in nuclear systems (e.g., quartetting in the Hoyle state). Since this theory was first proposed in 2001, in a highly cited article in Physical Review Letters, it has provoked a strong increase in interest internationally, both theoretically and experimentally, and initiated a number of conferences and several reviews. Schuck enjoyed various international collaborations, particularly within Europe and with colleagues from India, Japan, and China. He was editor of European Physical Journal A and was one of the most respected theoret
Peter Schuck博士教授于2022年9月10日逝世,享年82岁,他是核和其他基本系统多体物理学的主要专家之一。他在慕尼黑工业大学开始了他的教育,在一个由Wilhelm Brenig领导的小组中,他将格林的函数技术引入到多体系统的描述中。在获得博士学位后,他在波士顿的麻省理工学院做博士后,与菲利克斯·维拉斯一起研究集体振动及其与单粒子运动的耦合。他去了法国,先是去了朗格万研究所,后来去了格勒诺布尔的IPN。1980年,他加入奥赛的IPN,成为法国国家科学研究中心的研究主任。在格勒诺布尔的几年里,他与彼得·林合作出版了著名的《核多体问题》(1980年),这本书仍然是核理论最重要的教科书之一,特别是关于应用于有限自束缚费米系统的多体技术。一代又一代的年轻研究人员在他们的工作中使用这本书。今天,它在物理化学和介观凝聚态物理中也很有名。舒克还研究了将强相互作用有限费米系统描述为相互作用玻色子系统的想法;也就是说,对Arima和Iachello的现象相互作用玻色子模型的微观解释,这个模型在过去和现在仍然在世界范围内成功地用于描述核光谱。他还研究了集体现象,例如,在变形的质子和中子分布(同位旋-剪刀)或自旋方向(自旋-剪刀)中相互振荡的各种形式的剪刀模式。与巴塞罗那、卡塔尼亚和马德里的团队一起,他在巴黎开发了一个非常成功的用于核系统通用描述的新能量密度泛函(BCPM)。舒克还研究了中能核物理学,他是第一个预测所谓的西格玛介子的光谱强度在介质中有很强的依赖性的人。此外,他还发展了量子凝聚和配对理论。他还对冷原子物理学和其他凝聚态物质问题做出了重要贡献。多年来,他对随机相位近似和运动方程方法的各种扩展产生了兴趣。自2000年以来,Schuck在核系统中的α粒子凝聚理论(例如,霍伊尔态的四重奏)方面变得广为人知。自从这一理论于2001年在《物理评论快报》(Physical Review Letters)上一篇被高度引用的文章中首次提出以来,它在理论上和实验上都引起了国际上兴趣的强烈增长,并引发了一些会议和几篇评论。Schuck喜欢各种国际合作,特别是在欧洲以及与来自印度、日本和中国的同事合作。他是欧洲物理杂志A的编辑,是欧洲物理学会(EPS)最受尊敬的理论家之一。2004年,他获得了盖伊-吕萨洪堡奖。2018年,他与彼得·林一起获得了EPS颁发的莉斯·迈特纳核物理奖。随着Peter Schuck的去世,我们不仅失去了一位在核理论和多体物理领域最重要的专家,他激发了许多新的想法,发起了讨论和合作。最重要的是,我们失去了一位总是乐于助人、乐于接受新问题的朋友和志同道合的同事。我们将在今后的工作中怀念他,怀念他。
{"title":"In Memoriam: Peter Schuck (1940–2022)","authors":"P. Ring, G. Roepke","doi":"10.1080/10619127.2023.2168926","DOIUrl":"https://doi.org/10.1080/10619127.2023.2168926","url":null,"abstract":"Professor Dr. Peter Schuck, one of the leading specialists in many-body physics in nuclear and other fundamental systems, passed away on 10 September 2022, at the age of 82. He began his education at the Technical University of Munich in a group headed by Wilhelm Brenig, introducing Green’s function techniques into the description of manybody systems. Following his Ph.D., as a postdoc at Massachusetts Institute of Technology in Boston, he worked with Felix Villars on collective vibrations and their coupling to singleparticle motion. He went to France, first to the Institut Laue Langevin and later to the IPN in Grenoble. In 1980, he joined the IPN in Orsay, where he became directeur de research at the CNRS. During his years in Grenoble, he collaborated with Peter Ring on the celebrated book The Nuclear Many-Body Problem (1980), which is still one of the most important textbooks on nuclear theory, particularly concerning many-body techniques applied to finite self-bound Fermi systems. Generations of young researchers have used this book for their work. Today it is also well known in physical chemistry and mesoscopic condensed matter physics. Schuck also worked on ideas to describe strongly interacting finite Fermi systems as a system of interacting bosons; that is, on a microscopic interpretation of the phenomenological Interacting Boson Model of Arima and Iachello that was, and is still, used worldwide with great success for the description of nuclear spectra. He also studied collective phenomena as, for example, various forms of scissor modes in deformed protonand neutron-distributions (isospin-scissors) or spin orientations (spin-scissors) that oscillate against each other. Together with groups in Barcelona, Catania, and Madrid, he developed in Paris a very successful new energy density functional (BCPM) for the universal description of nuclear systems. Schuck also worked on intermediate energy nuclear physics and was the first to predict a strong in-medium dependence of the spectral intensity of the so-called sigma meson. In addition, he developed the theory of quantum condensates and pairing. He also made important contributions to the physics of cold atoms and other problems in condensed matter. Over the years, he developed an interest in various extensions of the random phase approximation and the equationof-motion method. Since 2000, Schuck became well known in relation to the theory of alpha particle condensation in nuclear systems (e.g., quartetting in the Hoyle state). Since this theory was first proposed in 2001, in a highly cited article in Physical Review Letters, it has provoked a strong increase in interest internationally, both theoretically and experimentally, and initiated a number of conferences and several reviews. Schuck enjoyed various international collaborations, particularly within Europe and with colleagues from India, Japan, and China. He was editor of European Physical Journal A and was one of the most respected theoret","PeriodicalId":38978,"journal":{"name":"Nuclear Physics News","volume":"81 1","pages":"38 - 38"},"PeriodicalIF":0.0,"publicationDate":"2023-01-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"88005761","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-01-02DOI: 10.1080/10619127.2023.2168913
M. Cerri, M. Negrini
{"title":"Cold and Safe in Space: Enhanced Radio-Resistance Induced by Hibernation","authors":"M. Cerri, M. Negrini","doi":"10.1080/10619127.2023.2168913","DOIUrl":"https://doi.org/10.1080/10619127.2023.2168913","url":null,"abstract":"","PeriodicalId":38978,"journal":{"name":"Nuclear Physics News","volume":"41 1","pages":"20 - 22"},"PeriodicalIF":0.0,"publicationDate":"2023-01-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"76264356","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-01-02DOI: 10.1080/10619127.2023.2168098
Jesse Abney, M. Stachura, O. Stelzer-Chilton
As an institutional value, the concept of “change,” serves as a driver of continuous improvement. It also underpins the notion that we have the agency and space to dream—to try and even fail—ever forward. At TRIUMF, Canada’s particle accelerator center, the five-year strategic planning cycle and 20-year vision provide the laboratory’s dreamers with a sandbox for challenging traditional practices to evolve, and to try new things in the service of pushing forward to the next horizon.
{"title":"The Science Poster, Reimagined","authors":"Jesse Abney, M. Stachura, O. Stelzer-Chilton","doi":"10.1080/10619127.2023.2168098","DOIUrl":"https://doi.org/10.1080/10619127.2023.2168098","url":null,"abstract":"As an institutional value, the concept of “change,” serves as a driver of continuous improvement. It also underpins the notion that we have the agency and space to dream—to try and even fail—ever forward. At TRIUMF, Canada’s particle accelerator center, the five-year strategic planning cycle and 20-year vision provide the laboratory’s dreamers with a sandbox for challenging traditional practices to evolve, and to try new things in the service of pushing forward to the next horizon.","PeriodicalId":38978,"journal":{"name":"Nuclear Physics News","volume":"24 1","pages":"3 - 5"},"PeriodicalIF":0.0,"publicationDate":"2023-01-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"85850090","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2022-10-02DOI: 10.1080/10619127.2022.2135957
R. Broda, R. Julin, S. Lunardi, H. Paffen, B. Rubio, O. Schult, J. Styczeń, Steven Yates
sor and from then onward he was able to devote himself entirely to scientific work again. For many years he maintained a very intensive collaboration and scientific exchange with his Russian colleagues in Dubna, where he codiscovered element flerovium (Fl) in a joint experiment. For his outstanding research work and findings, he received a large number of renowned awards and prizes, which cannot be mentioned here. He was an honorary doctor of the universities in Bratislava, Slovakia; Frankfurt am Main, Germany; and Dubna, Russia. In 1984, he received the Physics Prize of the German Physical Society (together with Gottfried Münzenberg and others), in 1996 the Otto Hahn Prize (together with Gottfried Münzenberg), in 1997 the G.N. Flerov Prize, in 1998 the SUN-AMCO Medal of the International Union of Pure and Applied Physics, in 2011 the Nicolaus Copernicus Medal, and in 2011 the Medal of the City of Toruń. Sigurd Hofmann was a diligent writer and speaker. He was invited to speak at countless international conferences, authored a large number of review articles, books and book chapters, many widely cited publications, and so on. He also liked to present scientific results at public events. In doing so, he was able to develop a thrilling picture of modern physics, but also of the big questions of cosmology and element synthesis in stars; he was also able to convey very clearly to the public how atoms can be made “visible.” Many chapters of his contemporary scientific life are recorded in his 2002 book On Beyond Uranium (CRC Press, ISBN 978-0-415-28496-7). His modesty and friendly nature were remarkable. You could always rely on him. His care, accuracy, and deliberateness in all work were outstanding. His persistence was one of the foundations for groundbreaking scientific achievements. He was always in the office or at the experiment, even late in the evening and on weekends, so that you could ask him at any time and always got detailed answers and competent advice. In 2019, Sigurd Hofmann inaugurated a so-called photopoint (see photograph above) in the Darmstadt International Convention Center “Darmstadtium,” named after the chemical element 110, which was discovered at GSI in Darmstadt in November 1994 in a SHIP experiment conducted under his leadership. We are pleased that we have been able to work with an excellent scientist and colleague as well as an outstanding teacher and great person for so many years. Now we mourn Sigurd Hofmann. Our deepest sympathy goes out to his family. We will remember him fondly.
从那时起,他又能全身心地投入到科学工作中去了。多年来,他与杜布纳的俄罗斯同事保持着密切的合作和科学交流,在那里,他在一次联合实验中共同发现了氟元素(Fl)。由于他杰出的研究工作和发现,他获得了许多著名的奖项和奖励,在此不再赘述。他是斯洛伐克布拉迪斯拉发大学的荣誉博士;德国美因河畔法兰克福;以及俄罗斯的杜布纳。1984年,他获得了德国物理学会物理奖(与Gottfried m nzenberg等人一起),1996年获得Otto Hahn奖(与Gottfried m nzenberg等人一起),1997年获得G.N. Flerov奖,1998年获得国际纯粹与应用物理联合会SUN-AMCO奖章,2011年获得Nicolaus哥白尼奖章,2011年获得托卢茨市奖章。西格德·霍夫曼是一位勤奋的作家和演说家。他受邀在无数国际会议上发言,撰写了大量的评论文章,书籍和书籍章节,许多被广泛引用的出版物等等。他还喜欢在公共场合展示科学成果。在此过程中,他不仅描绘了一幅令人激动的现代物理学图景,而且还描绘了宇宙学和恒星元素合成等重大问题;他还能够非常清楚地向公众传达原子是如何“可见”的。他当代科学生活的许多章节都记录在他2002年的书On Beyond Uranium (CRC Press, ISBN 978-0-415-28496-7)。他的谦虚和友好的天性是了不起的。你可以永远依靠他。他在所有工作中的细心、准确和慎重都是杰出的。他的坚持是突破性科学成就的基础之一。他总是在办公室或在实验中,甚至在深夜和周末,所以你可以随时问他,总是得到详细的答案和称职的建议。2019年,西格德·霍夫曼(Sigurd Hofmann)在达姆施塔特国际会议中心“达姆施塔特”(Darmstadtium)启动了一个所谓的光点(见上图),该光点以化学元素110命名,该元素于1994年11月在达姆施塔特的GSI在他领导下进行的SHIP实验中发现。我们很高兴能够与一位优秀的科学家和同事以及一位杰出的老师和伟大的人一起工作这么多年。现在我们哀悼西格德·霍夫曼。我们向他的家人表示最深切的慰问。我们将永远怀念他。
{"title":"In Memoriam: Peter Kleinheinz (1931–2022)","authors":"R. Broda, R. Julin, S. Lunardi, H. Paffen, B. Rubio, O. Schult, J. Styczeń, Steven Yates","doi":"10.1080/10619127.2022.2135957","DOIUrl":"https://doi.org/10.1080/10619127.2022.2135957","url":null,"abstract":"sor and from then onward he was able to devote himself entirely to scientific work again. For many years he maintained a very intensive collaboration and scientific exchange with his Russian colleagues in Dubna, where he codiscovered element flerovium (Fl) in a joint experiment. For his outstanding research work and findings, he received a large number of renowned awards and prizes, which cannot be mentioned here. He was an honorary doctor of the universities in Bratislava, Slovakia; Frankfurt am Main, Germany; and Dubna, Russia. In 1984, he received the Physics Prize of the German Physical Society (together with Gottfried Münzenberg and others), in 1996 the Otto Hahn Prize (together with Gottfried Münzenberg), in 1997 the G.N. Flerov Prize, in 1998 the SUN-AMCO Medal of the International Union of Pure and Applied Physics, in 2011 the Nicolaus Copernicus Medal, and in 2011 the Medal of the City of Toruń. Sigurd Hofmann was a diligent writer and speaker. He was invited to speak at countless international conferences, authored a large number of review articles, books and book chapters, many widely cited publications, and so on. He also liked to present scientific results at public events. In doing so, he was able to develop a thrilling picture of modern physics, but also of the big questions of cosmology and element synthesis in stars; he was also able to convey very clearly to the public how atoms can be made “visible.” Many chapters of his contemporary scientific life are recorded in his 2002 book On Beyond Uranium (CRC Press, ISBN 978-0-415-28496-7). His modesty and friendly nature were remarkable. You could always rely on him. His care, accuracy, and deliberateness in all work were outstanding. His persistence was one of the foundations for groundbreaking scientific achievements. He was always in the office or at the experiment, even late in the evening and on weekends, so that you could ask him at any time and always got detailed answers and competent advice. In 2019, Sigurd Hofmann inaugurated a so-called photopoint (see photograph above) in the Darmstadt International Convention Center “Darmstadtium,” named after the chemical element 110, which was discovered at GSI in Darmstadt in November 1994 in a SHIP experiment conducted under his leadership. We are pleased that we have been able to work with an excellent scientist and colleague as well as an outstanding teacher and great person for so many years. Now we mourn Sigurd Hofmann. Our deepest sympathy goes out to his family. We will remember him fondly.","PeriodicalId":38978,"journal":{"name":"Nuclear Physics News","volume":"25 1","pages":"38 - 39"},"PeriodicalIF":0.0,"publicationDate":"2022-10-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"89031482","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2022-10-02DOI: 10.1080/10619127.2022.2133502
Giovanni Casini, N. Le Neindre
{"title":"FAZIA and INDRA at GANIL: Status and First Results","authors":"Giovanni Casini, N. Le Neindre","doi":"10.1080/10619127.2022.2133502","DOIUrl":"https://doi.org/10.1080/10619127.2022.2133502","url":null,"abstract":"","PeriodicalId":38978,"journal":{"name":"Nuclear Physics News","volume":"30 1","pages":"24 - 27"},"PeriodicalIF":0.0,"publicationDate":"2022-10-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"86645640","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
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