![]() ![]() Ecophysiology of microorganisms relevant to building components.Resistance to growth and sustainability of microorganisms.Materials and damage arising in building processes.Vehicle components (interior & exterior).Environment, Hygiene and Sensor Technology.Inorganic raw materials and material cycles.Products tailored to different climates and applications.Product development and optimization in hygrothermics.Renovation and preservation of historical buildings and monuments.Hygrothermics: Moisture and thermal control.The Sustainability Data Science Life Cycle (S-DSLC).Data-Science enhanced Product Stewardship.Environmentally compatible product development.eco DESIGN for sustainable aircraft concepts.Integral assessment of building products.Assessment and certification of sustainable buildings.Sustainable city/urban quarter development.Printed electronics and the Internet of Things (IoT).Recycling processes and recovery of raw materials.Lining and Insulation Test Environment (LITE).Consulting, knowledge transfer and special reports.Lighting Technology and Passive Solar Systems.Indoor Environment Simulation Suite (IESS).Evaluating new products and system solutions.Evaluating demonstration projects through measurements.Transient building and system simulation.Evaluation of façades and building envelopes.Energy-efficient cities and municipal climate protection.Innovative concepts for urban districts.Cognitive Ergonomics and Psychoacoustics.Prototyping, user testing, and sound design.Human-Centered Acoustic Design and User Research.Simulation and auralization of room acoustics.Sound immission protection and urban acoustics.Planning structural noise protection measures.Public and Industrial Research in Building Acoustics.Development of acoustic building components. ![]() Claverie, P.: Analysis of multiexponential functions without a hypothesis as to the number of components. J.: Search for a short-range, isospin-coupling component of the fifth force with use of a beam balance. Thieberger, P.: Search for a substance-dependent force with a new differential accelerometer. R.: Modulated source Eötvös experiment at Little Goose Lock. Szumilo, A.: Search for an intermediate-range composition-dependent force. Watanabe, R.: Limits on composition-dependent interactions using a laboratory source: Is there a “fifth force” coupled to isospin?. Watanabe, R.: Search for the intermediate-range interaction. Watanabe, R.: New constraints on composition-dependent interactions weaker than gravity. Rösch, N.: Search for non-newtonian gravitation - a gravimetric experiment in a hydroelectric lake (preprint, 1989)Īdelberger, E. D.: A lake experiment for measurement of the gravitational constant on a scale of tens of meters (preprint 1988) D.: A determination of the gravitational constant at an effective mass separation of 22 m. Mazilu, P.: Actio-reactio equations with finite wave speed derived from the principle of inertia. Mazilu, P.: Über den Zusammenhang zwischen den jtingsten geophysikalischen Messungen der Gravitationskonstante und den Experimenten von Brush und Eötvös. W.: Tower gravity experiments evidence for non-Newtonian gravity. T.: Borehole measurements of the Newtonian gravitational constant. J.: Gravity in mines - An investigation of Newton's law. J.: A new mine determination of the Newtonian gravitational constant. Morris, D.: Constraint on the planetary scale value of the Newtonian gravitational constant from the gravity profile within a mine. ![]()
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