Project acronym ADVODID
Project Advocacy in Digital Democracy: Use, Impact and Democratic Consequences
Researcher (PI) Anne RASMUSSEN
Host Institution (HI) KOBENHAVNS UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), SH2, ERC-2019-COG
Summary Digital technology has fundamentally changed the action repertoire of political campaigning and advocacy in the last decade. Despite its fundamental role in contemporary political strategy and potential to affect the quality of democracy, there is still little systematic evidence to assess and compare the real effects of online and offline advocacy tools. ADVODID will implement the first large-scale quantitative project designed to provide rich correlational and causal evidence on the effects of advocacy on citizens and policymakers, in both online and offline settings. It sets out to address - theoretically and empirically - the potentials and challenges for modern democracies that arise from digital advocacy tools. Its novelty lies in analyzing the use, impact and democratic consequences of digital advocacy strategies by assessing interactions of advocacy groups with both citizens and political representatives in a diverse set of eight countries (Australia, Chile, Denmark, India, the Netherlands, Spain, the UK, and the US). ADVODID will collect data on the advocacy agenda and strategy use of at least 400 carefully sampled advocates in these countries, and will assess agenda congruence with political and public agendas, and their dynamic development over time. Correlational analyses of different measures of advocacy success will be complemented by field experiments in cooperation with advocates in two countries, to supply causal evidence on how advocacy affects the positions and actions of policymakers and citizens. The project’s rich datasets will be used to assess and refine theories of democratic representation and the role of digital advocacy across different types of policy issues. ADVODID will greatly advance understanding of how modern advocacy impacts its target audiences and potentially changes participatory democracy. Its findings will have interdisciplinary and social relevance and inform ways to strengthen representative democracy in an online age.
Summary
Digital technology has fundamentally changed the action repertoire of political campaigning and advocacy in the last decade. Despite its fundamental role in contemporary political strategy and potential to affect the quality of democracy, there is still little systematic evidence to assess and compare the real effects of online and offline advocacy tools. ADVODID will implement the first large-scale quantitative project designed to provide rich correlational and causal evidence on the effects of advocacy on citizens and policymakers, in both online and offline settings. It sets out to address - theoretically and empirically - the potentials and challenges for modern democracies that arise from digital advocacy tools. Its novelty lies in analyzing the use, impact and democratic consequences of digital advocacy strategies by assessing interactions of advocacy groups with both citizens and political representatives in a diverse set of eight countries (Australia, Chile, Denmark, India, the Netherlands, Spain, the UK, and the US). ADVODID will collect data on the advocacy agenda and strategy use of at least 400 carefully sampled advocates in these countries, and will assess agenda congruence with political and public agendas, and their dynamic development over time. Correlational analyses of different measures of advocacy success will be complemented by field experiments in cooperation with advocates in two countries, to supply causal evidence on how advocacy affects the positions and actions of policymakers and citizens. The project’s rich datasets will be used to assess and refine theories of democratic representation and the role of digital advocacy across different types of policy issues. ADVODID will greatly advance understanding of how modern advocacy impacts its target audiences and potentially changes participatory democracy. Its findings will have interdisciplinary and social relevance and inform ways to strengthen representative democracy in an online age.
Max ERC Funding
1 986 922 €
Duration
Start date: 2021-08-01, End date: 2026-07-31
Project acronym AlgoFinance
Project Algorithmic Finance: Inquiring into the Reshaping of Financial Markets
Researcher (PI) Christian BORCH
Host Institution (HI) COPENHAGEN BUSINESS SCHOOL
Country Denmark
Call Details Consolidator Grant (CoG), SH3, ERC-2016-COG
Summary Present-day financial markets are turning algorithmic, as market orders are increasingly being executed by fully automated computer algorithms, without any direct human intervention. Although algorithmic finance seems to fundamentally reshape the central dynamics in financial markets, and even though it prompts core sociological questions, it has not yet received any systematic attention. In a pioneering contribution to economic sociology and social studies of finance, ALGOFINANCE aims to understand how and with what consequences the turn to algorithms is changing financial markets. The overall concept and central contributions of ALGOFINANCE are the following: (1) on an intra-firm level, the project examines how the shift to algorithmic finance reshapes the ways in which trading firms operate, and does so by systematically and empirically investigating the reconfiguration of organizational structures and employee subjectivity; (2) on an inter-algorithmic level, it offers a ground-breaking methodology (agent-based modelling informed by qualitative data) to grasp how trading algorithms interact with one another in a fully digital space; and (3) on the level of market sociality, it proposes a novel theorization of how intra-firm and inter-algorithmic dynamics can be conceived of as introducing a particular form of sociality that is characteristic to algorithmic finance: a form of sociality-as-association heuristically analyzed as imitation. None of these three levels have received systematic attention in the state-of-the-art literature. Addressing them will significantly advance the understanding of present-day algorithmic finance in economic sociology. By contributing novel empirical, methodological, and theoretical understandings of the functioning and consequences of algorithms, ALGOFINANCE will pave the way for other research into digital sociology and the broader algorithmization of society.
Summary
Present-day financial markets are turning algorithmic, as market orders are increasingly being executed by fully automated computer algorithms, without any direct human intervention. Although algorithmic finance seems to fundamentally reshape the central dynamics in financial markets, and even though it prompts core sociological questions, it has not yet received any systematic attention. In a pioneering contribution to economic sociology and social studies of finance, ALGOFINANCE aims to understand how and with what consequences the turn to algorithms is changing financial markets. The overall concept and central contributions of ALGOFINANCE are the following: (1) on an intra-firm level, the project examines how the shift to algorithmic finance reshapes the ways in which trading firms operate, and does so by systematically and empirically investigating the reconfiguration of organizational structures and employee subjectivity; (2) on an inter-algorithmic level, it offers a ground-breaking methodology (agent-based modelling informed by qualitative data) to grasp how trading algorithms interact with one another in a fully digital space; and (3) on the level of market sociality, it proposes a novel theorization of how intra-firm and inter-algorithmic dynamics can be conceived of as introducing a particular form of sociality that is characteristic to algorithmic finance: a form of sociality-as-association heuristically analyzed as imitation. None of these three levels have received systematic attention in the state-of-the-art literature. Addressing them will significantly advance the understanding of present-day algorithmic finance in economic sociology. By contributing novel empirical, methodological, and theoretical understandings of the functioning and consequences of algorithms, ALGOFINANCE will pave the way for other research into digital sociology and the broader algorithmization of society.
Max ERC Funding
1 590 036 €
Duration
Start date: 2017-05-01, End date: 2021-04-30
Project acronym ArtHep
Project Hepatocytes-Like Microreactors for Liver Tissue Engineering
Researcher (PI) Brigitte STADLER
Host Institution (HI) AARHUS UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), LS9, ERC-2018-COG
Summary The global epidemics of obesity and diabetes type 2 lead to higher abundancy of medical conditions like non-alcoholic fatty liver disease causing an increase in liver failure and demand for liver transplants. The shortage of donor organs and the insufficient success in tissue engineering to ex vivo grow complex organs like the liver is a global medical challenge.
ArtHep targets the assembly of hepatic-like tissue, consisting of biological and synthetic entities, mimicking the core structure elements and key functions of the liver. ArtHep comprises an entirely new concept in liver regeneration with multi-angled core impact: i) cell mimics are expected to reduce the pressure to obtain donor cells, ii) the integrated biocatalytic subunits are destined to take over tasks of the damaged liver slowing down the progress of liver damage, and iii) the matching micro-environment in the bioprinted tissue is anticipated to facilitate the connection between the transplant and the liver.
Success criteria of ArtHep include engineering enzyme-mimics, which can perform core biocatalytic conversions similar to the liver, the assembly of biocatalytic active subunits and their encapsulation in cell-like carriers (microreactors), which have mechanical properties that match the liver tissue and that have a camouflaging coating to mimic the surface cues of liver tissue-relevant cells. Finally, matured bioprinted liver-lobules consisting of microreactors and live cells need to connect to liver tissue when transplanted into rats.
I am convinced that the ground-breaking research in ArtHep will contribute to the excellence of science in Europe while providing the game-changing foundation to counteract the ever increasing donor liver shortage. Further, consolidating my scientific efforts and moving them forward into unexplored dimensions in biomimicry for medical purposes, is a unique opportunity to advance my career.
Summary
The global epidemics of obesity and diabetes type 2 lead to higher abundancy of medical conditions like non-alcoholic fatty liver disease causing an increase in liver failure and demand for liver transplants. The shortage of donor organs and the insufficient success in tissue engineering to ex vivo grow complex organs like the liver is a global medical challenge.
ArtHep targets the assembly of hepatic-like tissue, consisting of biological and synthetic entities, mimicking the core structure elements and key functions of the liver. ArtHep comprises an entirely new concept in liver regeneration with multi-angled core impact: i) cell mimics are expected to reduce the pressure to obtain donor cells, ii) the integrated biocatalytic subunits are destined to take over tasks of the damaged liver slowing down the progress of liver damage, and iii) the matching micro-environment in the bioprinted tissue is anticipated to facilitate the connection between the transplant and the liver.
Success criteria of ArtHep include engineering enzyme-mimics, which can perform core biocatalytic conversions similar to the liver, the assembly of biocatalytic active subunits and their encapsulation in cell-like carriers (microreactors), which have mechanical properties that match the liver tissue and that have a camouflaging coating to mimic the surface cues of liver tissue-relevant cells. Finally, matured bioprinted liver-lobules consisting of microreactors and live cells need to connect to liver tissue when transplanted into rats.
I am convinced that the ground-breaking research in ArtHep will contribute to the excellence of science in Europe while providing the game-changing foundation to counteract the ever increasing donor liver shortage. Further, consolidating my scientific efforts and moving them forward into unexplored dimensions in biomimicry for medical purposes, is a unique opportunity to advance my career.
Max ERC Funding
1 992 289 €
Duration
Start date: 2019-05-01, End date: 2024-04-30
Project acronym BODY-UI
Project Using Embodied Cognition to Create the Next Generations of Body-based User Interfaces
Researcher (PI) Kasper Anders Soren Hornbaek
Host Institution (HI) KOBENHAVNS UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), PE6, ERC-2014-CoG
Summary Recent advances in user interfaces (UIs) allow users to interact with computers using only their body, so-called body-based UIs. Instead of moving a mouse or tapping a touch surface, people can use whole-body movements to navigate in games, gesture in mid-air to interact with large displays, or scratch their forearm to control a mobile phone. Body-based UIs are attractive because they free users from having to hold or touch a device and because they allow always-on, eyes-free interaction. Currently, however, research on body-based UIs proceeds in an ad hoc fashion and when body-based UIs are compared to device-based alternatives, they perform poorly. This is likely because little is known about the body as a user interface and because it is unclear whether theory and design principles from human-computer interaction (HCI) can be applied to body-based UIs. While body-based UIs may well be the next interaction paradigm for HCI, results so far are mixed.
This project aims at establishing the scientific foundation for the next generations of body-based UIs. The main novelty in my approach is to use results and methods from research on embodied cognition. Embodied cognition suggest that thinking (including reasoning, memory, and emotion) is shaped by our bodies, and conversely, that our bodies reflect thinking. We use embodied cognition to study how body-based UIs affect users, and to increase our understanding of similarities and differences to device-based input. From those studies we develop new body-based UIs, both for input (e.g., gestures in mid-air) and output (e.g., stimulating users’ muscles to move their fingers), and evaluate users’ experience of interacting through their bodies. We also show how models, evaluation criteria, and design principles in HCI need to be adapted for embodied cognition and body-based UIs. If successful, the project will show how to create body-based UIs that are usable and orders of magnitude better than current UIs.
Summary
Recent advances in user interfaces (UIs) allow users to interact with computers using only their body, so-called body-based UIs. Instead of moving a mouse or tapping a touch surface, people can use whole-body movements to navigate in games, gesture in mid-air to interact with large displays, or scratch their forearm to control a mobile phone. Body-based UIs are attractive because they free users from having to hold or touch a device and because they allow always-on, eyes-free interaction. Currently, however, research on body-based UIs proceeds in an ad hoc fashion and when body-based UIs are compared to device-based alternatives, they perform poorly. This is likely because little is known about the body as a user interface and because it is unclear whether theory and design principles from human-computer interaction (HCI) can be applied to body-based UIs. While body-based UIs may well be the next interaction paradigm for HCI, results so far are mixed.
This project aims at establishing the scientific foundation for the next generations of body-based UIs. The main novelty in my approach is to use results and methods from research on embodied cognition. Embodied cognition suggest that thinking (including reasoning, memory, and emotion) is shaped by our bodies, and conversely, that our bodies reflect thinking. We use embodied cognition to study how body-based UIs affect users, and to increase our understanding of similarities and differences to device-based input. From those studies we develop new body-based UIs, both for input (e.g., gestures in mid-air) and output (e.g., stimulating users’ muscles to move their fingers), and evaluate users’ experience of interacting through their bodies. We also show how models, evaluation criteria, and design principles in HCI need to be adapted for embodied cognition and body-based UIs. If successful, the project will show how to create body-based UIs that are usable and orders of magnitude better than current UIs.
Max ERC Funding
1 853 158 €
Duration
Start date: 2015-05-01, End date: 2020-04-30
Project acronym BTVI
Project First Biodegradable Biocatalytic VascularTherapeutic Implants
Researcher (PI) Alexander Zelikin
Host Institution (HI) AARHUS UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), PE8, ERC-2013-CoG
Summary "We aim to perform academic development of a novel biomedical opportunity: localized synthesis of drugs within biocatalytic therapeutic vascular implants (BVI) for site-specific drug delivery to target organs and tissues. Primary envisioned targets for therapeutic intervention using BVI are atherosclerosis, viral hepatitis, and hepatocellular carcinoma: three of the most prevalent and debilitating conditions which affect hundreds of millions worldwide and which continue to increase in their importance in the era of increasingly aging population. For hepatic applications, we aim to develop drug eluting beads which are equipped with tools of enzyme-prodrug therapy (EPT) and are administered to the liver via trans-arterial catheter embolization. Therein, the beads perform localized synthesis of drugs and imaging reagents for anticancer combination therapy and theranostics, antiviral and anti-inflammatory agents for the treatment of hepatitis. Further, we conceive vascular therapeutic inserts (VTI) as a novel type of implantable biomaterials for treatment of atherosclerosis and re-endothelialization of vascular stents and grafts. Using EPT, inserts will tame “the guardian of cardiovascular grafts”, nitric oxide, for which localized, site specific synthesis and delivery spell success of therapeutic intervention and/or aided tissue regeneration. This proposal is positioned on the forefront of biomedical engineering and its success requires excellence in polymer chemistry, materials design, medicinal chemistry, and translational medicine. Each part of this proposal - design of novel types of vascular implants, engineering novel biomaterials, developing innovative fabrication and characterization techniques – is of high value for fundamental biomedical sciences. The project is target-oriented and once successful, will be of highest practical value and contribute to increased quality of life of millions of people worldwide."
Summary
"We aim to perform academic development of a novel biomedical opportunity: localized synthesis of drugs within biocatalytic therapeutic vascular implants (BVI) for site-specific drug delivery to target organs and tissues. Primary envisioned targets for therapeutic intervention using BVI are atherosclerosis, viral hepatitis, and hepatocellular carcinoma: three of the most prevalent and debilitating conditions which affect hundreds of millions worldwide and which continue to increase in their importance in the era of increasingly aging population. For hepatic applications, we aim to develop drug eluting beads which are equipped with tools of enzyme-prodrug therapy (EPT) and are administered to the liver via trans-arterial catheter embolization. Therein, the beads perform localized synthesis of drugs and imaging reagents for anticancer combination therapy and theranostics, antiviral and anti-inflammatory agents for the treatment of hepatitis. Further, we conceive vascular therapeutic inserts (VTI) as a novel type of implantable biomaterials for treatment of atherosclerosis and re-endothelialization of vascular stents and grafts. Using EPT, inserts will tame “the guardian of cardiovascular grafts”, nitric oxide, for which localized, site specific synthesis and delivery spell success of therapeutic intervention and/or aided tissue regeneration. This proposal is positioned on the forefront of biomedical engineering and its success requires excellence in polymer chemistry, materials design, medicinal chemistry, and translational medicine. Each part of this proposal - design of novel types of vascular implants, engineering novel biomaterials, developing innovative fabrication and characterization techniques – is of high value for fundamental biomedical sciences. The project is target-oriented and once successful, will be of highest practical value and contribute to increased quality of life of millions of people worldwide."
Max ERC Funding
1 996 126 €
Duration
Start date: 2014-04-01, End date: 2019-03-31
Project acronym CLIC
Project Classical Influences and Irish Culture
Researcher (PI) Isabelle Torrance
Host Institution (HI) AARHUS UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), SH5, ERC-2018-COG
Summary The hypothesis of this project is that Ireland has a unique and hitherto underexplored history of cultural engagement with models from ancient Greece and Rome. Unlike Britain and mainland Europe, Ireland was never part of the Roman Empire. Yet the island has an extraordinarily vibrant tradition of classical learning that dates back to its earliest recorded literature, and is unparalleled in other northern European countries. Research for this project will address why this is the case, by examining sources through nine significant diachronic themes identified by the PI: language; land; travel and exile; Troy; satire; Neoplatonism; female voices; material culture; and global influence. This multi-thematic approach will enable analysis of what is remarkable about classical reception in Ireland. It will also provide a heuristic framework that generates dialogue between normally disparate fields, such as classical reception studies, Irish and British history, English-language literature, Irish-language literature, medieval studies, postcolonial studies, philosophy, material culture, women's studies, and global studies. The project will engage with contemporary preoccupations surrounding the politics and history of the divided island of Ireland, such as the current decade of centenary commemorations for the foundation of an independent Irish state (1912-1922, 2012-2022), and the on-going violence and political divisions in Northern Ireland. These issues will serve as a springboard for opening new avenues of investigation that look far beyond the past 100 years, but are linked to them. The project will thus shed new light on the role of classical culture in shaping literary, social, and political discourse across the island of Ireland, and throughout its history.
Summary
The hypothesis of this project is that Ireland has a unique and hitherto underexplored history of cultural engagement with models from ancient Greece and Rome. Unlike Britain and mainland Europe, Ireland was never part of the Roman Empire. Yet the island has an extraordinarily vibrant tradition of classical learning that dates back to its earliest recorded literature, and is unparalleled in other northern European countries. Research for this project will address why this is the case, by examining sources through nine significant diachronic themes identified by the PI: language; land; travel and exile; Troy; satire; Neoplatonism; female voices; material culture; and global influence. This multi-thematic approach will enable analysis of what is remarkable about classical reception in Ireland. It will also provide a heuristic framework that generates dialogue between normally disparate fields, such as classical reception studies, Irish and British history, English-language literature, Irish-language literature, medieval studies, postcolonial studies, philosophy, material culture, women's studies, and global studies. The project will engage with contemporary preoccupations surrounding the politics and history of the divided island of Ireland, such as the current decade of centenary commemorations for the foundation of an independent Irish state (1912-1922, 2012-2022), and the on-going violence and political divisions in Northern Ireland. These issues will serve as a springboard for opening new avenues of investigation that look far beyond the past 100 years, but are linked to them. The project will thus shed new light on the role of classical culture in shaping literary, social, and political discourse across the island of Ireland, and throughout its history.
Max ERC Funding
1 888 592 €
Duration
Start date: 2019-10-01, End date: 2024-09-30
Project acronym CLIOARCH
Project Cliodynamic archaeology: Computational approaches to Final Palaeolithic/earliest Mesolithic archaeology and climate change
Researcher (PI) Felix RIEDE
Host Institution (HI) AARHUS UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), SH6, ERC-2018-COG
Summary Late Pleistocene/early Holocene Europe is said to be the ideal laboratory for the investigation of human responses to rapidly changing climates and environments, migration and adaptation. Yet, pinpointing precisely how and why contemporaneous Final Palaeolithic/earliest Mesolithic (15,000-11,000 years BP) foragers migrated, and which environmental or other factors they adapted to – or failed to – has remained remarkably elusive. At the core of ClioArch is the radical but, in light of research-historical insights, necessary hypothesis that the current archaeological cultural taxonomy for this iconic period of European prehistory is epistemologically flawed and that operationalisations and interpretations based on this traditional taxonomy – especially those that seek to relate observed changes in material culture and land-use to contemporaneous climatic and environmental changes – are therefore problematic. Hence, novel approaches to crafting the taxonomic building blocks are required, as are novel analyses of human|environment relations in this period. ClioArch’s premier ambition is to provide operational cultural taxonomies for the Final Palaeolithic/earliest Mesolithic of Europe and to couple these with interdisciplinary cultural evolutionary, quantitative ecological methods and field archaeological investigations beyond the state-of-the-art, so as to better capture such adaptations – almost certainly with major implications for the standard culture-historical narrative relating to this period. In so doing, the project will pioneer a fully transparent and replicable – and eminently transferable – methodology for the study of the impacts of climate change and extreme environmental events in deep history. In turn, such a quantitative understanding of past adaptive dynamics will position archaeology more centrally in contemporary debates about climate change, environmental catastrophe and their cultural dimensions.
Summary
Late Pleistocene/early Holocene Europe is said to be the ideal laboratory for the investigation of human responses to rapidly changing climates and environments, migration and adaptation. Yet, pinpointing precisely how and why contemporaneous Final Palaeolithic/earliest Mesolithic (15,000-11,000 years BP) foragers migrated, and which environmental or other factors they adapted to – or failed to – has remained remarkably elusive. At the core of ClioArch is the radical but, in light of research-historical insights, necessary hypothesis that the current archaeological cultural taxonomy for this iconic period of European prehistory is epistemologically flawed and that operationalisations and interpretations based on this traditional taxonomy – especially those that seek to relate observed changes in material culture and land-use to contemporaneous climatic and environmental changes – are therefore problematic. Hence, novel approaches to crafting the taxonomic building blocks are required, as are novel analyses of human|environment relations in this period. ClioArch’s premier ambition is to provide operational cultural taxonomies for the Final Palaeolithic/earliest Mesolithic of Europe and to couple these with interdisciplinary cultural evolutionary, quantitative ecological methods and field archaeological investigations beyond the state-of-the-art, so as to better capture such adaptations – almost certainly with major implications for the standard culture-historical narrative relating to this period. In so doing, the project will pioneer a fully transparent and replicable – and eminently transferable – methodology for the study of the impacts of climate change and extreme environmental events in deep history. In turn, such a quantitative understanding of past adaptive dynamics will position archaeology more centrally in contemporary debates about climate change, environmental catastrophe and their cultural dimensions.
Max ERC Funding
1 907 638 €
Duration
Start date: 2019-09-01, End date: 2024-08-31
Project acronym ConTExt
Project Connecting the Extreme
Researcher (PI) Sune Toft
Host Institution (HI) KOBENHAVNS UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), PE9, ERC-2014-CoG
Summary Advances in technology and methodology over the last decade, have enabled the study of galaxies to the highest redshifts. This has revolutionized our understanding of the origin and evolution of galaxies. I have played a central role in this revolution, by discovering that at z=2, when the universe was only 3 Gyr old, half of the most massive galaxies were extremely compact and had already completed their star formation. During the last five years I have led a successful group of postdocs and students dedicated to investigating the extreme properties of these galaxies and place them into cosmological context. Combining a series of high profile observational studies published by my group and others, I recently proposed an evolutionary sequence that ties together the most extreme galaxies in the universe, from the most intense dusty starburst at cosmic dawn, through quasars: the brightest sources in the universe, driven by feedback from supermassive black holes, and galaxy cores hosting the densest conglomerations of stellar mass known, to the sleeping giants of the local universe, the giant ellipticals. The proposed research program will explore if such an evolutionary sequence exists, with the ultimate goal of reaching, for the first time, a coherent physical understanding of how the most massive galaxies in the universe formed. While there is a chance the rigorous tests may ultimately reveal the proposed sequence to be too simplistic, a guarantied outcome of the program is a significantly improved understanding of the physical mechanisms that shape galaxies and drive their star formation and quenching
Summary
Advances in technology and methodology over the last decade, have enabled the study of galaxies to the highest redshifts. This has revolutionized our understanding of the origin and evolution of galaxies. I have played a central role in this revolution, by discovering that at z=2, when the universe was only 3 Gyr old, half of the most massive galaxies were extremely compact and had already completed their star formation. During the last five years I have led a successful group of postdocs and students dedicated to investigating the extreme properties of these galaxies and place them into cosmological context. Combining a series of high profile observational studies published by my group and others, I recently proposed an evolutionary sequence that ties together the most extreme galaxies in the universe, from the most intense dusty starburst at cosmic dawn, through quasars: the brightest sources in the universe, driven by feedback from supermassive black holes, and galaxy cores hosting the densest conglomerations of stellar mass known, to the sleeping giants of the local universe, the giant ellipticals. The proposed research program will explore if such an evolutionary sequence exists, with the ultimate goal of reaching, for the first time, a coherent physical understanding of how the most massive galaxies in the universe formed. While there is a chance the rigorous tests may ultimately reveal the proposed sequence to be too simplistic, a guarantied outcome of the program is a significantly improved understanding of the physical mechanisms that shape galaxies and drive their star formation and quenching
Max ERC Funding
1 999 526 €
Duration
Start date: 2015-09-01, End date: 2021-02-28
Project acronym CoreSat
Project Dynamics of Earth’s core from multi-satellite observations
Researcher (PI) Christopher FINLAY
Host Institution (HI) DANMARKS TEKNISKE UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), PE10, ERC-2017-COG
Summary Earth's magnetic field plays a fundamental role in our planetary
habitat, controlling interactions between the Earth and the solar wind.
Here, I propose to use magnetic observations, made simultaneously by
multiple satellites, along with numerical models of outer core dynamics,
to test whether convective processes can account for ongoing changes in
the field. The geomagnetic field is generated by a dynamo process
within the core converting kinetic energy of the moving liquid metal
into magnetic energy. Yet observations show a region of persistently
weak field in the South Atlantic that has grown in size in recent
decades. Pinning down the core dynamics responsible for this behaviour
is essential if we are to understand the detailed time-dependence of the
geodynamo, and to forecast future field changes.
Global magnetic observations from the Swarm constellation mission, with
three identical satellites now carrying out the most detailed ever
survey of the geomagnetic field, provide an exciting opportunity to
probe the dynamics of the core in exquisite detail. To exploit this
wealth of data, it is urgent that contaminating magnetic sources in the
lithosphere and ionosphere are better separated from the core-generated
field. I propose to achieve this, and to test the hypothesis that core
convection has controlled the recent field evolution in the South
Atlantic, via three interlinked projects. First I will co-estimate
separate models for the lithospheric and core fields, making use of
prior information from crustal geology and dynamo theory. In parallel,
I will develop a new scheme for isolating and removing the signature of
polar ionospheric currents, better utilising ground-based data. Taking
advantage of these improvements, data from Swarm and previous missions
will be reprocessed and then assimilated into a purpose-built model of
quasi-geostrophic core convection.
Summary
Earth's magnetic field plays a fundamental role in our planetary
habitat, controlling interactions between the Earth and the solar wind.
Here, I propose to use magnetic observations, made simultaneously by
multiple satellites, along with numerical models of outer core dynamics,
to test whether convective processes can account for ongoing changes in
the field. The geomagnetic field is generated by a dynamo process
within the core converting kinetic energy of the moving liquid metal
into magnetic energy. Yet observations show a region of persistently
weak field in the South Atlantic that has grown in size in recent
decades. Pinning down the core dynamics responsible for this behaviour
is essential if we are to understand the detailed time-dependence of the
geodynamo, and to forecast future field changes.
Global magnetic observations from the Swarm constellation mission, with
three identical satellites now carrying out the most detailed ever
survey of the geomagnetic field, provide an exciting opportunity to
probe the dynamics of the core in exquisite detail. To exploit this
wealth of data, it is urgent that contaminating magnetic sources in the
lithosphere and ionosphere are better separated from the core-generated
field. I propose to achieve this, and to test the hypothesis that core
convection has controlled the recent field evolution in the South
Atlantic, via three interlinked projects. First I will co-estimate
separate models for the lithospheric and core fields, making use of
prior information from crustal geology and dynamo theory. In parallel,
I will develop a new scheme for isolating and removing the signature of
polar ionospheric currents, better utilising ground-based data. Taking
advantage of these improvements, data from Swarm and previous missions
will be reprocessed and then assimilated into a purpose-built model of
quasi-geostrophic core convection.
Max ERC Funding
1 828 708 €
Duration
Start date: 2018-03-01, End date: 2023-08-31
Project acronym CRIMTANG
Project Criminal Entanglements.A new ethnographic approach to transnational organised crime.
Researcher (PI) Henrik VIGH
Host Institution (HI) KOBENHAVNS UNIVERSITET
Country Denmark
Call Details Consolidator Grant (CoG), SH3, ERC-2016-COG
Summary Linked to terrorism, moral breakdown, and societal decay, Transnational Organised Crime (TOC) has come to embody current global anxieties as a figure of fear and cause of disquiet. Yet despite its central position on the social and political radar, our knowledge of it remains limited and fragmentary. Quantitative analyses may have identified the scale of the problem, but its underlying socio-cultural logic and practices remain under-researched and largely obscure. TOC is on the rise, and we need better insights into how it develops and expands, who engages in it and why, and how it is linked to and embedded in social networks that straddle countries and contexts.
CRIMTANG proposes a unique approach to the study of the social infrastructure of contemporary TOC. It develops a research strategy that is ethnographic and transnational in design and so attuned to the human flows and formations of TOC. The project comprises a trans-disciplinary research team of anthropologists, criminologists and political scientists, and builds on their prior experience of the people, regions and languages under study. It explores the illegal and overlapping flows of migrants and drugs from North-West Africa into Europe, following a key trafficking trajectory stretching from Tangiers to Barcelona, Paris and beyond.
In so doing, CRIMTANG sheds new light on the actual empirical processes in operation at different points along this trafficking route, whilst simultaneously developing new theoretical and methodological apparatuses for apprehending TOC that can be exported and applied in other regions and contexts. It reimagines the idea of social entanglement and proposes new transnational and collective fieldwork strategies. Finally, it will advance and consolidate the European research environment on TOC by creating a research hub for transnational ethnographic criminology at the University of Copenhagen.
Summary
Linked to terrorism, moral breakdown, and societal decay, Transnational Organised Crime (TOC) has come to embody current global anxieties as a figure of fear and cause of disquiet. Yet despite its central position on the social and political radar, our knowledge of it remains limited and fragmentary. Quantitative analyses may have identified the scale of the problem, but its underlying socio-cultural logic and practices remain under-researched and largely obscure. TOC is on the rise, and we need better insights into how it develops and expands, who engages in it and why, and how it is linked to and embedded in social networks that straddle countries and contexts.
CRIMTANG proposes a unique approach to the study of the social infrastructure of contemporary TOC. It develops a research strategy that is ethnographic and transnational in design and so attuned to the human flows and formations of TOC. The project comprises a trans-disciplinary research team of anthropologists, criminologists and political scientists, and builds on their prior experience of the people, regions and languages under study. It explores the illegal and overlapping flows of migrants and drugs from North-West Africa into Europe, following a key trafficking trajectory stretching from Tangiers to Barcelona, Paris and beyond.
In so doing, CRIMTANG sheds new light on the actual empirical processes in operation at different points along this trafficking route, whilst simultaneously developing new theoretical and methodological apparatuses for apprehending TOC that can be exported and applied in other regions and contexts. It reimagines the idea of social entanglement and proposes new transnational and collective fieldwork strategies. Finally, it will advance and consolidate the European research environment on TOC by creating a research hub for transnational ethnographic criminology at the University of Copenhagen.
Max ERC Funding
1 999 909 €
Duration
Start date: 2018-02-01, End date: 2023-01-31
