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Clarivate Reveals Citation Laureates 2024

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Clarivate Plc (NYSE:CLVT), a leading global provider of transformative intelligence, today unveiled the Citation Laureates 2024 list – used to forecast future Nobel Prize recipients. These 22 exceptional scientists and economists spanning six countries have demonstrated such groundbreaking impact in their fields that their work is considered of Nobel stature. Experts at the Institute for Scientific Information (ISI) at Clarivate have identified 75 Citation Laureates prior to their Nobel success – often several years before they received Nobel honors.
This year’s Citation Laureates have made significant contributions to advancing key areas, including clean energy, nanotechnology, 3D protein structures, the economic impact of corruption, heart disease, molecular dynamics, quantum computing, genetic imprinting and condensed matter physics.
The list highlights 22 individuals based at leading academic institutions and corporate organizations. This year, 11 are based in the United States, six in the United Kingdom, two in Switzerland, and one each in Germany, Israel and Japan. These individuals have authored foundational research papers in their fields that are exceptionally highly cited and have had a broad societal impact.
John M. Jumper, Director at Google DeepMind and a Citation Laureate 2024, said: “Being named a Citation Laureate is a recognition of the impact our work has had – it’s not just about our discovery, but about the groundbreaking science being done on top of our discovery. This award recognizes that we are the shoulders on which other researchers are standing to see further. I’m deeply passionate that we’re able to make the work of scientists faster so medicine and science can work better for society.”
Demis Hassabis, CEO and Co-Founder at Google DeepMind and a Citation Laureate 2024, said: “I’m deeply honored to be named a Citation Laureate for 2024. I’ve dedicated my career to AI because of its potential to advance science and improve billions of lives, and AlphaFold is the first proof point of this promise. AlphaFold has been used by over 2 million researchers to advance critical work, from enzyme design to drug discovery. I believe AI will be one of the most beneficial technologies ever, enabling cures for devastating diseases, delivering truly personalized medicine, and powering ‘science at digital speed’.”
Emmanuel Thiveaud, Senior Vice President for Research & Analytics, Academia & Government at Clarivate said: “The Citation Laureates program is a tribute to the visionary minds driving innovation and societal impact across diverse fields of research. Their influence, evidenced by their extensive citation records, highlights the significant impact of their work on shaping future discoveries and contributions to societal progress. At Clarivate, we are proud to spotlight these pioneering individuals whose work offers transformative potential.”
Since 2002, analysts at the Institute for Scientific Information have drawn on publication and citation data from trusted journals in the Web of Science to identify potential Nobel Prize recipients in the fields of Physiology or Medicine, Physics, Chemistry and Economics. Out of nearly 61 million articles and proceedings indexed in the Web of Science since 1970, only 0.01% have been cited more than 2,000 times. Citation Laureates are selected from the authors of this group of papers.
The Citation Laureates 2024 are:

Physiology or Medicine

Jonathan C. Cohen, C. Vincent Prothro Distinguished Chair in Human Nutrition Research, University of Texas Southwestern Medical Center, Dallas, Texas, United States, and
Helen H. Hobbs, Investigator of the Howard Hughes Medical Institute; Professor of Internal Medicine and Molecular Genetics at the University of Texas Southwestern Medical Center, Dallas, Texas, United States
For research on the genetics of lipid metabolism, which has led to new drugs to treat cardiovascular diseases

Ann M. Graybiel, Institute Professor, Department of Brain and Cognitive Sciences, and Investigator, McGovern Institute for Brain Research, MIT, Cambridge, Massachusetts, United States, and
Okihide Hikosaka, NIH Distinguished Investigator, Laboratory of Sensorimotor Research, National Eye Institute, National Institutes of Health, Bethesda, Maryland, United States, and
Wolfram Schultz, Professor of Neuroscience, Department of Physiology, Development & Neuroscience, and Professorial Fellow, Churchill College, University of Cambridge, Cambridge, United Kingdom; Visiting Research Associate, Division of Human & Social Sciences, California Institute of Technology, Pasadena, California, United States
For physiological studies of the basal ganglia, central to motor control and behavior including learning

Davor Solter, Emeritus Director and Member, Department of Developmental Biology, Max Planck Institute of Immunobiology and Epigenetics, Freiburg, Germany, and
Azim Surani, Director of Germline and Epigenetics Research, Gurdon Institute; and Affiliated Professor, Cambridge Stem Cell Institute, University of Cambridge, Cambridge, United Kingdom
For the discovery of genomic imprinting, advancing our understanding of epigenetics and mammalian development

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Physics

Rafi Bistritzer, Professor, School of Physics and Astronomy, Tel Aviv University, Tel Aviv, Israel, and
Pablo Jarillo-Herrero, Cecil and Ida Green Professor of Physics, Department of Physics, MIT, Cambridge, Massachusetts, United States, and
Allan H. MacDonald, Sid W. Richardson Foundation Regents Chair in Physics, Department of Physics, University of Texas at Austin, Austin, Texas, United States
For pioneering theoretical and experimental contributions to the physics of magic angle twisted bilayer graphene and related moiré quantum devices

David Deutsch, Visiting Professor of Physics, Centre for Quantum Computation, Clarendon Laboratory, and Honorary Fellow of Wolfson College, Oxford University, Oxford, United Kingdom, and
Peter W. Shor, Henry Adams Morss Professor of Applied Mathematics, MIT, Cambridge, Massachusetts, United States
For revolutionary contributions to quantum algorithms and computing

Christoph Gerber, Professor, Swiss Nanoscience Institute (SNI), Department of Physics, University of Basel, Basel, Switzerland
For invention and application of atomic force microscopy

Chemistry

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David Baker, Professor of Biochemistry, Howard Hughes Medical Institute Investigator, and Director of the Institute for Protein Design, University of Washington School of Medicine, Seattle, Washington, United States, and
John M. Jumper, Director, Google DeepMind, London, United Kingdom, and
Demis Hassabis, CEO and Co-Founder, Google DeepMind, London, United Kingdom
For contributions to the prediction and design of three-dimensional protein structures and functions

Kazunari Domen, Special Contract Professor, Institute for Aqua Regeneration, Shinshu University, Nagano, Japan; University Professor, Office of University Professors, University of Tokyo, Tokyo, Japan
For fundamental research on photocatalysts for water splitting and the construction of solar hydrogen production systems

Roberto Car, Ralph W. *31 Dornte Professor in Chemistry, Professor of Chemistry and the Princeton Materials Institute; Director, Chemistry in Solution and at Interfaces Computational Chemical Science Center; Princeton University, Princeton, New Jersey, United States, and
Michele Parrinello, Professor Emeritus of Computational Science at the Faculty of Informatics, Università della Svizzera Italiana, Lugano, Switzerland; Professor Emeritus at the Department of Chemistry and Applied Biosciences, ETH Zurich, Zurich, Switzerland
For the Car-Parrinello method for calculating ab-initio molecular dynamics, a revolution in computational chemistry

Economics

Janet Currie, Henry Putnam Professor of Economics and Public Affairs, Princeton School of Public and International Affairs, Princeton University, Princeton, New Jersey, United States
For pioneering economic analysis of child development

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Partha Dasgupta, Frank Ramsey Professor Emeritus of Economics, Faculty of Economics, University of Cambridge, Cambridge, United Kingdom
For integrating nature and its resources in the human economy

Paolo Mauro, Director, Economic and Market Research Department, International Finance Corporation, Washington, D.C., United States
For empirical studies of the effects of corruption on investment and economic growth

Notes to editors:To learn more about the list’s methodology and view our full list of Citation Laureates named since 2002, visit the Hall of Citation Laureates.
David Pendlebury, Head of Research Analysis at the Institute for Scientific Information at Clarivate is available for interview.
This year’s Nobel Prize announcements will take place 7–14 October. All the announcements will be streamed live at www.nobelprize.org.
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The Rise of AI Drives 9 Fold Surge in Liquid Cooling Technology

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AI servers, driven by Nvidia’s GB200 superchip, have experienced significant growth. The cutting-edge B200 chip, due to its high thermal design power, requires direct-to-chip cooling. Supermicro announced that it had shipped over 2000 direct-liquid-cooled AI server racks by the end of August 2024, and it has expanded its manufacturing capacity to 5000 racks per month. Supermicro reported that it has around 75% of the liquid-cooled AI server rack market, and IDTechEx believes that this production capacity expansion will lead to a surge in liquid-cooled server racks, as well as the number of cold plates. The projections for the number of cold plates for AI servers in IDTechEx’s new report, “Thermal Management for Data Centers 2025-2035: Technologies, Markets, and Opportunities”, align with Supermicro’s latest announcement.
IDTechEx believes that this production capacity expansion is expected to drive a rapid increase in the deployment of liquid-cooled racks across the AI and high-performance computing (HPC) sectors, along with a notable rise in the use of cold plates. Cold plates are integral to direct-liquid-cooling systems, as they are responsible for absorbing and dissipating the significant heat generated by high-performance chips like Nvidia’s B200. IDTechEx’s recent research into thermal management for data centers echoes Supermicro’s projections, highlighting the increasing importance of liquid cooling technologies in managing the heat loads associated with next-generation AI and HPC hardware.
Direct-to-chip (D2C) cooling, also known as cold plate cooling, is a sophisticated cooling method wherein a cold plate is mounted directly onto the chip (GPU or CPU). The plate facilitates the transfer of heat from the chip to a circulating coolant, which then dissipates the heat. D2C cooling can be divided into two main categories: single-phase and two-phase systems, depending on the type of coolant used. Single-phase D2C typically uses a water-glycol mixture, which circulates through the system and transfers heat away from the chip via convection. This type of cooling is efficient for systems with moderate TDPs, as the coolant remains in a liquid state throughout the process. In contrast, two-phase D2C cooling uses a coolant like fluorinated refrigerant, which absorbs heat through a phase change. As the coolant transitions from liquid to gas, it provides significantly greater cooling power, making it well-suited for systems with extremely high TDPs.
The rapid increase in chip TDPs is driving the demand for more advanced cooling solutions. AI and HPC applications, in particular, are pushing the limits of current cooling technologies, as these workloads require chips with significantly higher power consumption to handle complex computations. Nvidia’s GPU roadmap, combined with Intel’s recent announcement of its Falcon Shores GPU – expected to have a TDP of 1,500W – suggests that GPUs and CPUs with TDPs exceeding 1,500W likely become common within the next one to two years. IDTechEx predicts that this ongoing rise in TDP will eventually lead to a shift from single-phase to two-phase D2C cooling systems, as the latter offers superior heat dissipation capabilities required for these high-power chips despite the unclear timeline.
In addition to direct-to-chip cooling, immersion cooling has garnered significant attention as an alternative solution for high-performance systems. Similar to D2C, immersion cooling can be split into two categories: single-phase immersion cooling (1-PIC) and two-phase immersion cooling (2-PIC). However, unlike D2C, immersion cooling involves submerging the entire server into a bath of coolant, which absorbs heat directly from all components. This method is highly effective for cooling densely packed systems with high power requirements, as it eliminates the need for air-based cooling entirely. In single-phase immersion cooling, the coolant remains in a liquid state, similar to single-phase D2C. Two-phase immersion, however, leverages a phase change in the coolant, similar to two-phase D2C, to provide even more efficient heat dissipation.
While immersion cooling offers numerous advantages in terms of thermal efficiency, it comes with several challenges. The process of submerging servers requires extensive retrofitting of existing infrastructure, as well as rigorous material compatibility tests to ensure that the components can withstand prolonged exposure to the coolant. This results in higher upfront costs compared to D2C cooling systems. Additionally, immersion cooling systems, especially two-phase variants, face regulatory challenges. For example, 3M’s Novec products, commonly used as two-phase coolants, are set to be discontinued by the end of 2025. As of now, no PFAS-free or “forever chemical”-free two-phase coolants have been officially announced, adding another layer of complexity for companies considering immersion cooling solutions.
Cooling in data centers occurs at various levels, ranging from chip-level to facility-level cooling. Each level requires different cooling strategies, with technologies like D2C and immersion cooling primarily focusing on chip, server, and rack-level thermal management. At the room and facility levels, air-based cooling remains the most common approach in 2024. Computer room air conditioning (CRAC) units and computer room air handling (CRAH) units are widely used to cool entire server rooms or data center floors. However, the growing heat loads generated by high-performance AI and HPC systems are pushing the limits of air cooling, prompting the adoption of more efficient liquid-based solutions.
One such solution is liquid-to-liquid (L2L) cooling, which is becoming increasingly popular for facility-level heat management. In L2L cooling, a cooling distribution unit (CDU) transfers heat from one liquid loop to another, enhancing heat exchange efficiency. This system is particularly effective for data centers dealing with higher heat loads from AI and HPC workloads. Supermicro’s CEO has predicted that liquid-cooled data centers, which currently represent around 1% of the market, will grow to 30% by 2026. IDTechEx shares this optimistic outlook, noting that while L2L cooling is gaining traction, its widespread adoption will likely be concentrated in newly constructed data centers due to the significant retrofitting required for existing facilities. However, many existing data centers, particularly those using CRAH units, already have facility water systems in place, which can be leveraged for L2L cooling retrofits. These existing water systems are often the starting point for upgrading older data centers to accommodate more advanced liquid cooling technologies.
In conclusion, the rapid rise of AI and HPC applications is driving a fundamental shift in data center cooling strategies. As chips like Nvidia’s B200 and Intel’s Falcon Shores GPU push the limits of thermal design power, direct-to-chip and immersion cooling solutions are becoming critical to managing the heat loads in modern data centers. This unprecedented transition brings significant opportunities to players in the data center cooling value chain, including but not limited to coolant suppliers, server makers, system integrators, cold plate manufacturers, materials suppliers, and cooling equipment (e.g., HVAC) suppliers. More details about the opportunities can be found in IDTechEx’s latest research report, “Thermal Management for Data Centers 2025-2035: Technologies, Markets, and Opportunities”.
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OTM recognised as the ‘Leading Travel Trade Show in India and Asia’, in a customised study by NielsenIQ commissioned by Fairfest Media

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OTM Mumbai has been named the #1 travel trade show in India and Asia in a customised market research study commissioned by Fairfest Media Limited which was conducted by NielsenIQ – the world’s leading consumer intelligence company. The customised research, conducted among participants and visitors who have attended two or more travel trade shows in the region, found a ‘significantly higher quantum of respondents stating OTM (Mumbai) to be the leading show at a National, Regional and Asia level’ — outperforming other major shows in the region, including ITB Asia, ITB India and SATTE Delhi.
The comprehensive survey evaluated 18 international travel trade shows across Asia and 20 regional shows in India. In addition to identifying the leading travel trade show, the survey highlighted key findings related to exhibitors’ and visitors’ overall experience, satisfaction, and willingness to attend again.
Key Survey Findings:

OTM as the Top Trade Show in India: 59% of respondents across India selected OTM as their preferred trade show, a significantly higher percentage than any other event in the country.
Leadership in Asia: In the broader Asia-wide context, OTM secured 42% of the vote, significantly higher than other events in Asia, further reinforcing its position as a market leader.
Exhibitor and Visitor Satisfaction: OTM outperformed its competitors in terms of satisfaction with the quality of exhibits and the profile of visitors.
Venue Quality: OTM garnered ‘significantly higher satisfaction regarding the quality of the venue across all competition on Top Box Satisfaction,’ says the customised study conducted by NielsenIQ & commissioned by Fairfest Media.

The survey extensively covered several granular aspects of satisfaction, including the quality of exhibits, the profile of visitors, the relevance of speakers and conference sessions, and the quality of venue and other services. A copy of the report submitted to Fairfest Media by NielsenIQ is available here. (link)
The fieldwork by NielsenIQ is done in an unbiased manner without intervention from Fairfest Media Limited and quality control procedures were followed strictly. The date of the fieldwork is 2nd Aug to 4th Sept 2024. The areas covered in the customised study (conducted by NielsenIQ & commissioned by Fairfest Media) include India, Vietnam, Bangladesh, Singapore, Sri Lanka, Nepal, United Kingdom, Kenya, Bahrain, Thailand, Maldives, Rwanda, Greece, Malaysia, Seoul, Philippines, Ethiopia, Nigeria and South Africa. The population covered includes exhibitors and visitors of travel trade shows. The sample size was overall (N=312); exhibitors (N=23), visitors (N=289). The total usable database of visitors shared with NielsenIQ was over 14,000 and of exhibitors was over 2,200. The sampling method was online, purposive sampling.
These findings confirm that OTM consistently delivers high-quality buyers and offers the highest return on investment (ROI) for participants. The survey results reinforce OTM’s status as the leading B2B show in Asia for travel industry professionals.The next edition of OTM, from 30 January to 1 February 2025, at the Jio World Convention Centre in Mumbai, is expected to be the largest ever, further strengthening its substantial lead in both the country and the region, according to the organisers. It will bring together over 40,000 travel industry professionals from over 60 countries, with pre-qualified buyers from India, Asia and beyond.
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2024 WIC Wuzhen Summit set for November

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The 2024 World Internet Conference (WIC) Wuzhen Summit, themed “Embracing a People-Centered and AI-for-Good Digital Future – Building a Community with a Shared Future in Cyberspace,” will take place from Nov 19 to 22 in Wuzhen, East China’s Zhejiang province, as announced by the WIC on Sept 30. A representative from the WIC secretariat stated on Sept 30 that the upcoming 2024 WIC Wuzhen Summit will focus on artificial intelligence, bringing new ideas and highlights to capture global attention.
This year, the WIC will introduce the WIC Distinguished Contribution Award, establish the WIC Specialized Committee on Artificial Intelligence (SC on AI), initiate the WIC Think Thank Cooperation Program, launch the WIC Digital Academy and feature the WIC Global Elite Training at the 2024 summit.
The summit will include 24 sub-forums, with discussions focusing on digital cooperation under the Global Development Initiative, digital and green development, digital economy, open-source, data governance, rule of law in cyberspace, cultural exchange, digital education, youth and digital future, AI innovation and governance, cybersecurity, and international collaboration.
The signature events of the summit are progressing smoothly. Preparations are well underway for the release of “Outstanding Cases of Jointly Building a Community with a Shared Future in Cyberspace” and the award ceremony of the World Internet Conference Awards for Pioneering Science and Technology. Meanwhile, the “Light of Internet” Expo continues to accept exhibitors, and the “Straight to Wuzhen” Competition is gearing up for its finals. Additionally, the second cohort of young leaders selected for the 2024 Global Youth Leadership Program will be invited to the 2024 WIC Wuzhen Summit, where they will contribute their voices on internet development and governance from a youth perspective.
The WIC, headquartered in Beijing, China, is committed to build a global Internet platform for extensive consultation, joint contribution and shared benefits, promote the international community to follow the trend of digitization, networking and intelligence in the information age, work together to address security challenges for common development, and build a community with a shared future in cyberspace.
Since 2014, the WIC Wuzhen Summit has been successfully held for 10 consecutive years, attracting thousands of representatives from government agencies, international organizations, leading internet companies, industry associations, and academic institutions from around the world to exchange ideas and build consensus annually.

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