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Designing Multipolar Resonances in Dielectric Metamaterials

Nikita A. Butakov
Jon A. Schuller
ResearchOpen Access08 Dec 2016
Scientific Reports

Volume: 6, P: 1-8
Erratum: Plasmonics for extreme light concentration and manipulation

Jon. A. Schuller
Edward S. Barnard
Mark L. Brongersma
Amendments and Corrections05 Mar 2010
Nature Materials

Volume: 9, P: 368
Scalable genetic screening for regulatory circuits using compressed Perturb-seq

Compressed Perturb-seq incorporates compressed sensing to genetic screening for scalable discovery of genetic interactions.

Douglas Yao
Loic Binan
Brian Cleary
ResearchOpen Access23 Oct 2023
Nature Biotechnology

Volume: 42, P: 1282-1295
Orientation of luminescent excitons in layered nanomaterials

Energy-momentum spectroscopy is used to identify distinct intra- and interlayer exciton species in MoS₂ and a perylene derivative.

Jon A. Schuller
Sinan Karaveli
Rashid Zia
Research03 Mar 2013
Nature Nanotechnology

Volume: 8, P: 271-276
Engineering light absorption in semiconductor nanowire devices

Quantum confinement effects have an important role in photonic devices. However, rather than seeking perfect confinement of light, leaky-mode resonances are shown to be ideally suited for enhancing and spectrally engineering light absorption in nanoscale photonic structures.

Linyou Cao
Justin S. White
Mark L. Brongersma
Research05 Jul 2009
Nature Materials

Volume: 8, P: 643-647
Optical antenna thermal emitters

Single SiC whiskers can be made into infrared emitters by thermal excitation. The broadband thermal emission is coupled to the electromagnetic resonances of the whisker, allowing relatively narrowband emission at infrared frequencies. The emission frequency can be tuned by adjusting the size of the whiskers.

Jon A. Schuller
Thomas Taubner
Mark L. Brongersma
Research18 Oct 2009
Nature Photonics

Volume: 3, P: 658-661
Light-emitting metalenses and meta-axicons for focusing and beaming of spontaneous emission

Controlling radiation emission using metamaterials is of interest for light sources and other applications. Here, the authors develop generalized phased-array metasurface equations and design metasurface axicons and lenses to collimate and focus the spontaneous emission, respectively.

Yahya Mohtashami
Ryan A. DeCrescent
Jon. A. Schuller
ResearchOpen Access14 Jun 2021
Nature Communications

Volume: 12, P: 1-7
Ultrawide thermal free-carrier tuning of dielectric antennas coupled to epsilon-near-zero substrates

Achieving large tunability of subwavelength resonators is a central challenge in nanophotonics. Here the authors demonstrate refractive index tuning at mid-infrared wavelengths using temperature-dependent control over the low loss plasma frequency in III-V semiconductors.

Prasad P. Iyer
Mihir Pendharkar
Jon A. Schuller
ResearchOpen Access07 Sept 2017
Nature Communications

Volume: 8, P: 1-7
Unidirectional luminescence from InGaN/GaN quantum-well metasurfaces

Exploiting two-dimensional metamaterials, the direction of emission from InGaN/GaN quantum wells is engineered while simultaneously improving quantum efficiency.

Prasad P. Iyer
Ryan A. DeCrescent
Jon. A. Schuller
Research01 Jun 2020
Nature Photonics

Volume: 14, P: 543-548
Plasmonics for extreme light concentration and manipulation

Plasmonic structures are ideally suited to manipulate light on a scale that is much smaller than the wavelength of the plasmon resonance. This review discusses the applications arising from such extreme light concentration, which range from photonic devices and photovoltaics to localized thermal effects.

Jon A. Schuller
Edward S. Barnard
Mark L. Brongersma
Reviews19 Feb 2010
Nature Materials

Volume: 9, P: 193-204

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