Our overall aim is to build earthquake resilience in China by improving (a) the assessment of seismic hazard and risk from earthquakes and consequent events and (b) the communication and use of probabilistic information in the development of more proportionate and risk-based strategies for disaster risk reduction. We will build on and extend a recently-developed historical catalogue for earthquakes, extend it for the first time to include consequent events (landslides, debris/mud-flows, outburst floods), unify this new database with modern instrumental data, use state-of the art statistical techniques to quantify the associated uncertainties, and incorporate social science-based understanding of risk communication and governance to improve policy development and implementation. The work programme will be carried out in Si-chuan (including the 2008 Wenchuan earthquake) and Yun-nan provinces. While they are both tectonically active, and mountainous, and thus vulnerable not only to earthquakes but also to consequent hazards of earthquake-triggered landslides and flooding, Si-chuan is one of the wealthiest provinces in China, while Yun-nan is one of poorest. These differences in wealth, combined with the recency of the devastating 2008 Wenchuan in Si-chuan compared to the more attenuated memory of the 1996 Lijiang earthquake in Yun-nan, make for a natural experiment in which to test the efficacy of improved probabilistic assessment of risk and associated uncertainty to people and property by earthquakes, and consequent event hazards, in supporting more risk-based approaches to disaster reduction. This project will promote long-term sustainable growth in earthquake prone regions of China by improving both the assessment of earthquake hazard and consequent event risk and the communication, understanding, and use of the resulting probabilistic forecasts for disaster risk reduction by policymakers and local publics. It addresses several specific capacity gaps identified in successive Chinese national disaster risk reduction strategies. As well as engaging with policymakers at both the national and local levels to improve the effectiveness of emergency planning and building code regulation, we will also engage directly with local publics to enhance public understanding of risk and capacity to deal with it. In so doing, the project will also fulfil the UK's Official Development Assistance (ODA) commitment to promoting "the economic development and welfare of developing countries" by drawing on UK's science base to address a key vulnerability differentially affecting the very poorest in China.

The Project is cooperation between Telematica University E-Campus (Co-ordinator, Italy), Chukurova University (Turkey), University of Northumbria (UK) and six Universities in Asia - Beijing University of Technology (China), Lanzhou Jiaotong University (China), University Putrus Malaysia, University Sains Malaysia, Naresuan University (Thailand) and Chiang May University (Thailand). Integration of Sustainable Renewable Energy Solutions into Built Environment is going through a rapid acceleration to bring the level of technology deployment up to modern requirements due to aggravated air pollution conditions across Asian countries. Tackling this burning issue requires a new type of engineers with a deeper professional background in the subject area. The current content of modules and teaching methods used in partner Universities must undergo deep modernisation processes with input from EU Universities and international companies and with collaboration of experts in Mechanical , Civil and Architectural Engineering and Built Environment, and all these specialities are presented in the Project Consortium. The project aim is the deep modernisation of existing syllabus on Integration of Sustainable Renewable Energy Solutions into Built Environment, improving quality of education and teaching, which includes enhancing existing and application of new learning and teaching tools, methodologies and pedagogical approaches. This will involve modernisation of learning outcomes and ICT based practices. At least 48 modules in all 6 partner Universities will go through modernisation. Approximately 50% of modules content will be renewed with structure, outcomes and teaching methods being revised. In application to all 6 partner Universities the modernised part of the selected modules will be worth about 240 ECTS credits. Additionally, Improvements in Skills Development of PhD students will be carried out for meeting career targets.

To implement the Paris Agreement's goals, greenhouse gas emissions need to be reduced to net-zero around 2050. However, current policies are still insufficient to reach this target and net-zero promises by countries are generally lacking concrete roadmaps how to reach them. ELEVATE aims to create a robust scientific understanding required to strengthen NDCs and current climate policies towards reaching net-zero emissions. For this, ELEVATE brings together a unique multidisciplinary consortium of leading international and national modelling teams, climate policy experts and social scientists. The consortium aims to interact directly with policymakers to define information gaps and attractive policies, thus enhancing usability of the knowledge base and stimulating mutual learning. Based on this, the consortium will systematically assess NDCs and policies at the global and national levels to identify current progress and good practice policies. Subsequently, ELEVATE will look into a range of critical enabling factors related to sectoral action, international climate policy and the relationship with justice and sustainable development that can be leveraged to strengthen action. This allows a new generation of global and national mitigation scenarios, exploring the possibility of strengthening climate policies in countries worldwide and support net-zero goals. We assess the impact of different ways to formulate net-zero goals and the impact of climate uncertainty. Outcomes include detailed pathways and milestones on how policies can be strengthened to achieving net-zero goals. ELEVATE goes significantly beyond the state-of-the-art by 1) the inclusion of social sciences in all aspects of the analysis providing significantly improved insights into issues related to implementation and feasibility, 2) the detailed focus on sectoral action, 3) the stakeholder interaction and 4) the direct collaboration between the global and national teams on net-zero emission scenarios.

This project is located in the field of ultracold atoms, which based on the Nobel Prizes 1997 and 2001 is rapidly growing worldwide. It aims to establish UK leadership in dipolar magnetism, a novel area in this field connecting to several disciplines including spin-ice physics, a hot topic in condensed matter physics, macroscopic entanglement, of major interest to quantum computation and precision magnetic sensors with cross-disciplinary applications ranging from fundamental physics to geophysics, mineral exploration and climate change. In principle dipolar systems represent 19th century physics, when dipolar interactions were discussed in vain to explain magnetism. In the 20th century quantum physics with the Pauli principle and the Heisenberg model of magnetism came to the rescue - pushing dipolar interactions to the status of a small perturbation. However, it is exactly the quantum regime, which is currently triggering strong interest in dipolar systems. Dipolar interactions promise to provide long-range interactions in ultracold gas systems, opening unprecedented possibilities to study many-body effects, create magnetic monopole excitations or perform quantum gate operations. This project proposes to explore a new pathway in the highly competitive area of dipolar quantum gases by focusing on magnetic interactions, effectively establishing a new research area. The goal is to understand dipolar quantum phases, dipolar dynamics like the Einstein-de Haas effect and to explore dipolar interactions to create a system of large quantum spins with ultimate sensitivity to magnetic fields. It will directly benefit on the order of 20 researchers in the UK and 200 worldwide and has established collaborations linking to diverse fields in order to maximise impact.