[38] Qu J, Kadic M and Wegener M, Micro-Structured 3D Metamaterials with
Negative Thermal-Expansion Coefficient from Positive Constituents, Sci. Report
7, 40643, (2017).
[37] Kern C, Kadic M and Wegener M. Experimental evidence for sign reversal of the
Hall resistance in three-dimensional chainmail-like metamaterials, Phys. Rev. Lett.
118, 016601 (2017).
2016
[36] Diatta A, Kadic M, Wegener M, and Guenneau S, Scattering Problems in
Elastodynamics, Phys. Rev. B 94, 100105 (2016).
[35] Alaee R, Kadic M, Rockstuhl C, and Passian A, Optically assisted trapping with
high-permittivity dielectric rings: Towards optical aerosol filtration, Appl. Phys. Lett.
109, 141102 (2016).
[34] Frenzel T, Findeisen C, Kadic M, Gumbsch P and Wegener M, Tailored buckling
micro-lattices as reusable light-weight shock absorbers, Adv. Mater. 28, 5865 (2016).
[33] Schittny R, Niemeyer A, Mayer F, Naber A, Kadic M and Wegener M.
Invisibility cloaking in light-scattering media, Laser & Photonics Reviews DOI:
10.1002/lpor.201500284, (2016).
2015
[32] Christensen J, Kadic M, Kraft O and Wegener M. Vibrant times for mechanical
metamaterials, MRS Communications 5, 453-462 (2015).
[31] Schittny R, Niemeyer A, Kadic M, Bückmann T, Naber A and Wegener M.
Diffuse-light all-solid-state invisibility cloak, Optics Lett. 40 4202 (2015).
[30] Kern C, Kadic M and Wegener M. Parallel Hall effect from three-dimensional
single-component metamaterials, Appl. Phys. Lett. 107 132103 (2015).
[29] Kadic M, Schittny R, Bückmann T, Kern C and Wegener M. Hall-Effect Sign
Inversion in a Realizable 3D Metamaterial, Phys. Rev. X 5 021030 (2015).
[28] Bückmann T, Kadic M, Schittny R and Wegener M. Mechanical cloak design by
direct lattice transformation, Proc. Natl. Acad. Sci. 112 4930-4934 (2015).
[27] Bückmann T, Kadic M, Schittny R and Wegener M. Mechanical metamaterials
with anisotropic and negative effective mass density tensor made from one constituent
material, Phys. Status Solidi b 252 1671 (2015).
[26] Kadic M, Bückmann T, Schittny R and Wegener M. Experiments on cloaking in
optics, thermodynamics and mechanics, Phil. Trans. R. Soc. A. 373 2049 (2015).
[25] Schittny R, Niemeyer A, Kadic M, Bückmann T, Naber A and Wegener M.
Transient behavior of invisibility cloaks for diffusive light propagation, Optica 2 84-87
(2015).
2014
[24] Kadic M, Bückmann T, Schittny R, Gumbsch P and Wegener M. Pentamode
metamaterials with independently tailored bulk modulus and mass density, Phys. Rev.
Appl. 2 054007 (2014).
[23] Mueller J B, Fischer J, Mayer F, Kadic M and Wegener M. Polymerization
Kinetics in Three Dimensional Direct Laser Writing, Adv. Matter. 26 6566-6571
(2014).
[22] Kadic M, Dupont G, Guenneau S, Enoch S. Invisible waveguides on metal plates
for plasmonic analogs of electromagnetic wormholes, Phys. Rev. A 90 043812 (2014).
[21] Schittny R, Kadic M, Bückmann T and Wegener M. Invisibility cloaking in a
diffusive light scattering medium, Science 345 427-429 (2014).
[20] Bückmann T, Thiel M, Kadic M, Schittny R and Wegener M. An elastomechanical
unfeelability cloak made of pentamode metamaterials, Nat. Commun. 5
4130 (2014).
[19] Bückmann T, Schittny R, Thiel M, Kadic M, Greame W M and Wegener M. On
three-dimensional dilational elastic metamaterials, New J. Phys. 16 033032(2014).
2013
[18] Schittny R, Bückmann T, Kadic M and Wegener M. Elastic measurements on
macroscopic three-dimensional pentamode metamaterials, Appl. Phys. Lett. 103,
231905(2013).
[17] Kadic M, Bückmann T, Schittny R, and Wegener M. Metamaterials beyond
electromagnetism, Rep. Prog. Phys., 76 126501 (2013).
[16] Hofman M, Scherrer G, Kadic M, Melique X, Smigaj W, Cluzel B, Guenneau S,
Lippens D, De Fornel F, and Gralak B and Vanbestien O, J. Dispersion Engineering for
Multifunctional Photonic Crystal Based Nanophotonic Devices at InfraredWavelengths,
Nanomed. Nanotechnol. 4, 1000185 (2013).
[15] Frenzel T, Brehm J D, Bückmann T, Schittny R, Kadic M and Wegener M.
Three-dimensional labyrinthine acoustic metamaterials, Appl. Phys. Lett. 103, 061907
(2013).
[14] Kadic M, Bückmann T, Schittny R, and Wegener M, New J. Phys. 15, 023029
(2013).
[13] Schittny R, Kadic M, Guenneau S, and Wegener M, Experiments on transformation
thermodynamics: molding the flow of heat, Phys. Rev. Lett., 110, 198002
(2013).
[12] Scherrer G, Hofman M, Smigaj W, Kadic M, Chang TM, Melique X, Lippens
D, Vanbestien O, Cluzel B, de Fornel F, Guenneau S and Gralak B, Photonic crystal
carpet: Manipulating wave fronts in the near field at 1.55 um, Phys. Rev. B 88, 1151
(2013).
2012
[11] Martin A, Kadic M, Schittny R, Bückmann T, and Wegener, M, Phys. Rev. B
86, 155116 (2012).
[10] Bückmann T, Kadic M, Thiel M, and Wegener M. Werkstoffe 4, 46 (2012).
[9] Kadic M, Bückmann T, Stenger N, Thiel M, and Wegener M. On the practicability
of pentamode mechanical metamaterials, Appl. Phys. Lett. 100, 191901 (2012).
[8] Bückmann T, Stenger N, Kadic M, Kaschke J, Frölich J, Kennerknecht T, Eberl
C, Thiel M, and Wegener M. Tailored 3D Mechanical Metamaterials Made by Dip in
Direct Laser Writing Optical Lithography, Adv. Mater. 24, 2710 (2012).
[7] Kadic M, Sébastien G, Stefan E, Paloma AH , Luis M-M, García-Vidal F J,
Renger J, and Quidant R. Transformation plasmonics, Nanoph. 1,51-64 (2012).
2011
[6] Ramakrishna SA, Mandal P, Jeyadheepan K, Shukla N, Chakrabarti S, Kadic
M, Enoch S, Guenneau S. Plasmonic interaction of visible light with gold nanoscale
checkerboards, Phys Rev B 84, 245424 (2011).
[5] Kadic M, Dupont G, Chang T-M, Guenneau S, Enoch S. Curved trajectories on
transformed metal surfaces: Luneburg lens, beam-splitter, invisibility carpet and black
hole for surface plasmon polaritons, Photonics Nanostruct. Fundam. Appl. 9, 302–307
(2011).
[4] Kadic M, Dupont G, Guenneau S, Enoch S. Controlling surface plasmon polaritons
in transformed coordinates, J. Mod. Opt. 58, 994–1003 (2011).
[3] Kadic M, Guenneau S, Enoch S, Ramakrishna SA. Plasmonic space folding:
Focusing surface plasmons via negative refraction in complementary media, ACS Nano
5, 6819–25 (2011).
2010
[2] Kadic M, Guenneau S, Enoch S. From transformational optics to plasmonics, Opt.
Express 18, 12027 (2010).
[1]Renger J, Kadic M, Dupont G, Acimovic SS, Guenneau S, Quidant R, Enoch S.
Hidden progress: broadband plasmonic invisibility, Opt. Express 18, 15757–68 (2010).