Sensitivity Studies for Third-Generation Gravitational Wave Observatories

Advanced gravitational wave detectors, currently under construction, are expected to directly observe gravitational wave signals of astrophysical origin. The Einstein Telescope, a third-generation gravitational wave detector, has been proposed in order to fully open up the emerging field of gravitational wave astronomy. In this article we describe sensitivity models for the Einstein Telescope and investigate potential limits imposed by fundamental noise sources. A special focus is set on evaluating the frequency band below 10Hz where a complex mixture of seismic, gravity gradient, suspension thermal and radiation pressure noise dominates. We develop the most accurate sensitivity model, referred to as ET-D, for a third-generation detector so far, including the most relevant fundamental noise contributions.Comment: 13 pages, 7 picture

Scientific Potential of Einstein Telescope

Einstein gravitational-wave Telescope (ET) is a design study funded by the European Commission to explore the technological challenges of and scientific benefits from building a third generation gravitational wave detector. The three-year study, which concluded earlier this year, has formulated the conceptual design of an observatory that can support the implementation of new technology for the next two to three decades. The goal of this talk is to introduce the audience to the overall aims and objectives of the project and to enumerate ET's potential to influence our understanding of fundamental physics, astrophysics and cosmology.Comment: Conforms to conference proceedings, several author names correcte

Scientific Objectives of Einstein Telescope

The advanced interferometer network will herald a new era in observational astronomy. There is a very strong science case to go beyond the advanced detector network and build detectors that operate in a frequency range from 1 Hz-10 kHz, with sensitivity a factor ten better in amplitude. Such detectors will be able to probe a range of topics in nuclear physics, astronomy, cosmology and fundamental physics, providing insights into many unsolved problems in these areas.Comment: 18 pages, 4 figures, Plenary talk given at Amaldi Meeting, July 201

Mass-spectrometry-based metabolomics: limitations and recommendations for future progress with particular focus on nutrition research

Mass spectrometry (MS) techniques, because of their sensitivity and selectivity, have become methods of choice to characterize the human metabolome and MS-based metabolomics is increasingly used to characterize the complex metabolic effects of nutrients or foods. However progress is still hampered by many unsolved problems and most notably the lack of well established and standardized methods or procedures, and the difficulties still met in the identification of the metabolites influenced by a given nutritional intervention. The purpose of this paper is to review the main obstacles limiting progress and to make recommendations to overcome them. Propositions are made to improve the mode of collection and preparation of biological samples, the coverage and quality of mass spectrometry analyses, the extraction and exploitation of the raw data, the identification of the metabolites and the biological interpretation of the results

The third generation of gravitational wave observatories and their science reach

Large gravitational wave interferometric detectors, like Virgo and LIGO, demonstrated the capability to reach their design sensitivity, but to transform these machines into an effective observational instrument for gravitational wave astronomy a large improvement in sensitivity is required. Advanced detectors in the near future and third-generation observatories in more than one decade will open the possibility to perform gravitational wave astronomical observations from the Earth. An overview of the possible science reaches and the technological progress needed to realize a third-generation observatory are discussed in this paper. The status of the project Einstein Telescope (ET), a design study of a third-generation gravitational wave observatory, will be reported

Unifying logic, topology and learning in Parametric logic

Many connections have been established between learning and logic, or learning and topology, or logic and topology. Still, the connections are not at the heart of these fields. Each of them is fairly independent of the others when attention is restricted to basic notions and main results. We show that connections can actually be made at a fundamental level, and result in a logic with parameters that needs topological notions for its early developments, and notions from learning theory for interpretation and applicability. One of the key properties of first-order logic is that the classical notion of logical consequence is compact. We generalize the notion of logical consequence, and we generalize compactness to β-weak compactness where β is an ordinal. The effect is to stratify the set of generalized logical consequences of a theory into levels, and levels into layers. Deduction corresponds to the lower layer of the first level above the underlying theory, learning with less than β mind changes to layer β of the first level, and learning in the limit to the first layer of the second level. Refinements of Borel-like hierarchies provide the topological tools needed to develop the framework

Beneficial and nature-based sediment use - Experiences from Dutch pilots

The natural sediment cycle is disrupted and impacted by human interventions world-wide, such as dams in rivers, port developments in estuaries, dredging activities for the maintenance of existing ports and waterways, and pollution from industrial activities. Coasts, shores, lakes and rivers suffer from an imbalance in sediment quantity and poor sediment quality. This impacts human industrial activities (e.g. navigation, logistic and tourism), life and safety (e.g. space for living, flood safety, food security and loss of productivity). In addition, shortage of sand cause by excessive sand mining or lack of sand in the environment in many locations of the world brings a special focus on fine and soft sediment, generally considered an unsuitable resource if not a contaminated waste. In line with this world-wide demand, EcoShape - Building with Nature is executing various pilots in the Netherlands and Indonesia to improve knowledge and demonstrate practical nature-based solutions regarding management, use and reuse of (fine and soft) sediments. These pilots are bonded in the EcoShape Living Lab for Mud initiative. These pilots cover the entire range from sediment in suspension to sediment as building material, embedding ecology, operations as well as socio-economic considerations. This presentation will focus on two of these pilots located in the Netherlands: the Mud Motor and de Kleirijperij (also part of the Eems-Dollard 2050 program). The Mud Motor explored potential for beneficial use of dredge sediments to feed salt marshes, through strategic disposal and optimal use of natural processes. The Kleirijperij studies the technical and financial feasibility of turning dredge sediments into clay-soil for dike construction. During the presentations we will focus on technical results as well as governance challenges and triggers critical for the realization of sustainable beneficial sediment use projects. These pilots and this presentation tight also to the 2017 CEDA and the 2018 PIANC working groups on Beneficial Sediment Use.</p

Beneficial and nature-based sediment use - Experiences from Dutch pilots

The natural sediment cycle is disrupted and impacted by human interventions world-wide, such as dams in rivers, port developments in estuaries, dredging activities for the maintenance of existing ports and waterways, and pollution from industrial activities. Coasts, shores, lakes and rivers suffer from an imbalance in sediment quantity and poor sediment quality. This impacts human industrial activities (e.g. navigation, logistic and tourism), life and safety (e.g. space for living, flood safety, food security and loss of productivity). In addition, shortage of sand cause by excessive sand mining or lack of sand in the environment in many locations of the world brings a special focus on fine and soft sediment, generally considered an unsuitable resource if not a contaminated waste. In line with this world-wide demand, EcoShape - Building with Nature is executing various pilots in the Netherlands and Indonesia to improve knowledge and demonstrate practical nature-based solutions regarding management, use and reuse of (fine and soft) sediments. These pilots are bonded in the EcoShape Living Lab for Mud initiative. These pilots cover the entire range from sediment in suspension to sediment as building material, embedding ecology, operations as well as socio-economic considerations. This presentation will focus on two of these pilots located in the Netherlands: the Mud Motor and de Kleirijperij (also part of the Eems-Dollard 2050 program). The Mud Motor explored potential for beneficial use of dredge sediments to feed salt marshes, through strategic disposal and optimal use of natural processes. The Kleirijperij studies the technical and financial feasibility of turning dredge sediments into clay-soil for dike construction. During the presentations we will focus on technical results as well as governance challenges and triggers critical for the realization of sustainable beneficial sediment use projects. These pilots and this presentation tight also to the 2017 CEDA and the 2018 PIANC working groups on Beneficial Sediment Use.</p