Jonathan L. G. Schneider
YOU?
Author Swipe
View article: Soft and Stiff 3D Microstructures by Step‐Growth Photopolymerization Using a Single Photoresin and Multi‐Photon Laser Printing
Soft and Stiff 3D Microstructures by Step‐Growth Photopolymerization Using a Single Photoresin and Multi‐Photon Laser Printing Open
Manufacturing three‐dimensional (3D) microstructures with multi‐material properties via two‐photon 3D laser printing (2PLP) remains a significant challenge due to restrictions inherent to conventional chain‐growth photoresins. Herein, an a…
View article: Deep Eutectic Inks for Multiphoton 3D Laser Microprinting
Deep Eutectic Inks for Multiphoton 3D Laser Microprinting Open
Multiphoton 3D laser printing of polymers has become a widespread technology for manufacturing 3D architectures on the micro‐ and nanometer scale, with booming applications in micro‐optics, micro‐robotics, and micro‐scaffolds for biologica…
View article: Dynamic Multi‐Focus 3D Laser Nanoprinting Based on Two‐Step Absorption and Computational Holography
Dynamic Multi‐Focus 3D Laser Nanoprinting Based on Two‐Step Absorption and Computational Holography Open
Two‐step‐absorption 3D laser nanoprinting allows for using compact and low‐cost continuous‐wave (cw) lasers. Therefore, it is an attractive alternative to established state‐of‐the‐art multi‐photon‐absorption 3D laser nanoprinting. Addition…
View article: Observation of Floppy Flexural Modes in a 3D Polarized Maxwell Beam
Observation of Floppy Flexural Modes in a 3D Polarized Maxwell Beam Open
Beams are fundamental objects in solid mechanics, displaying flexural and torsional modes in three dimensions, and support important applications across all fields of engineering. Here, we introduce Maxwell lattice topological mechanics to…
View article: Multi‐Photon 3D Laser Micro‐Printed Plastic Scintillators for Applications in Low‐Energy Particle Physics
Multi‐Photon 3D Laser Micro‐Printed Plastic Scintillators for Applications in Low‐Energy Particle Physics Open
Plastic scintillators are inexpensive to manufacture and therefore a popular alternative to inorganic crystalline scintillators. For many applications, their advantages outweigh their lower light yield. Additionally, it is easier to struct…
View article: Anomalous frozen evanescent phonons
Anomalous frozen evanescent phonons Open
Evanescent Bloch waves are eigensolutions of spatially periodic problems for complex-valued wavenumbers at finite frequencies, corresponding to solutions that oscillate in time and space and that exponentially decay in space. Such evanesce…
View article: Dispersion Engineering by Hybridizing the Back‐Folded Soft Mode of Monomode Elastic Metamaterials with Stiff Acoustic Modes
Dispersion Engineering by Hybridizing the Back‐Folded Soft Mode of Monomode Elastic Metamaterials with Stiff Acoustic Modes Open
In many cases, the hybridization of two or more excitation modes in solids has led to new and useful dispersion relations of waves. Well‐studied examples are phonon polaritons, plasmon polaritons, particle‐plasmon polaritons, cavity polari…
View article: Observation of Chirality‐Induced Roton‐Like Dispersion in a 3D Micropolar Elastic Metamaterial
Observation of Chirality‐Induced Roton‐Like Dispersion in a 3D Micropolar Elastic Metamaterial Open
A theoretical paper based on chiral micropolar effective‐medium theory suggested the possibility of unusual roton‐like acoustical‐phonon dispersion relations in 3D elastic materials. Here, as a first novelty, the corresponding inverse prob…
View article: Tetramode Metamaterials as Phonon Polarizers
Tetramode Metamaterials as Phonon Polarizers Open
In classical Cauchy elasticity, 3D materials exhibit six eigenmodes of deformation. Following the 1995 work of Milton and Cherkaev, extremal elastic materials can be classified by the number of eigenmodes, N , out of these six that are “ea…
View article: Electrical resistivity, magnetism and electronic structure of the intermetallic 3<i>d</i>/4<i>f</i> Laves phase compounds ErNi2Mn<i>x</i>
Electrical resistivity, magnetism and electronic structure of the intermetallic 3<i>d</i>/4<i>f</i> Laves phase compounds ErNi2Mn<i>x</i> Open
The non-stoichiometric intermetallic compounds RENi2Mnx (RE = rare earth) with the cubic MgCu2-type structure display a large variety of magnetic properties which is due to a complex interplay between the degrees of freedom of the 3d and 4…