J
Jakob Søndergaard Jensen
Researcher at Technical University of Denmark
Publications - 129
Citations - 7689
Jakob Søndergaard Jensen is an academic researcher from Technical University of Denmark. The author has contributed to research in topics: Topology optimization & Photonic crystal. The author has an hindex of 37, co-authored 128 publications receiving 6632 citations. Previous affiliations of Jakob Søndergaard Jensen include University of Copenhagen.
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Expression of specific chemokines and chemokine receptors in the central nervous system of multiple sclerosis patients
Torben Lykke Sørensen,Marie Tani,Jakob Søndergaard Jensen,Virginia Pierce,Claudia F. Lucchinetti,Virginia A Folcik,Shixin Qin,James B. Rottman,Finn Sellebjerg,Robert M. Strieter,Jette L. Frederiksen,Richard M. Ransohoff +11 more
TL;DR: The results imply pathogenic roles for specific chemokine-chemokine receptor interactions in MS and suggest new molecular targets for therapeutic intervention.
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Systematic design of phononic band-gap materials and structures by topology optimization.
TL;DR: In this article, the authors show how topology optimization can be used to design and optimize periodic materials and structures exhibiting phononic band gaps, which can prevent elastic waves in certain frequency ranges from propagating.
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Topology optimization for nano‐photonics
TL;DR: The paper reviews the basic procedures behind topology optimization, a large number of applications ranging from photonic crystal design to surface plasmonic devices, and lists some of the future challenges in non-linear applications.
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Phononic band gaps and vibrations in one- and two-dimensional mass-spring structures
TL;DR: In this paper, the vibrational response of finite periodic lattice structures subjected to periodic loading is investigated, and the effects of boundaries, viscous damping, and imperfections are studied by analyzing two examples; a 1-D filter and a 2-D wave guide.
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Topology Optimized Architectures with Programmable Poisson's Ratio over Large Deformations
TL;DR: Topology optimized architectures are designed and printed with programmable Poisson's ratios ranging from -0.8 to 0.8 over large deformations of 20% or more.