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| Open AccessHigh efficiency coherent optical memory with warm rubidium vapour
Efficient memory systems are vital for the development of quantum communications technologies. Hosseini and colleagues describe an optical memory based on warm rubidium vapour that achieves 87% pulse recall efficiency, illustrating the potential of warm atomic vapour systems for quantum memory.
- M. Hosseini
- , B.M. Sparkes
- & B.C. Buchler
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Spherical hyperlens for two-dimensional sub-diffractional imaging at visible frequencies
Although hyperlenses made of metamaterials can image sub-diffraction-limited objects, they are limited to one-dimensional magnification and ultraviolet frequencies. Here, the authors demonstrate a spherical hyperlens for visible light far-field imaging, with a resolution of 160 nm in both lateral dimensions.
- Junsuk Rho
- , Ziliang Ye
- & Xiang Zhang
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Atomically flat single-crystalline gold nanostructures for plasmonic nanocircuitry
Polycrystalline substrates are a hindrance to the realization of high-definition plasmonic nanostructures. In this paper the authors chemically grow large and thin gold single crystals, and show that they can be coupled with top-down fabrication methods to produce high-quality nanostructures with good optical properties.
- Jer-Shing Huang
- , Victor Callegari
- & Bert Hecht
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Article
| Open AccessAll-linear time reversal by a dynamic artificial crystal
Signal processing by time reversal has thus far only been realized through nonlinear mechanisms. The authors describe an all-linear, and thus low-power, time-reversal process based on frequency inversion in a dynamically controlled artificial periodic structure, a dynamic magnonic crystal.
- Andrii V. Chumak
- , Vasil S. Tiberkevich
- & Burkard Hillebrands
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Three-dimensional broadband and broad-angle transformation-optics lens
Lenses with superior performance with respect to conventional uniform materials are desirable. The authors show a three-dimensional lens, made of multilayered metamaterials and based on approximate transformation optics, which works in different polarizations at broad viewing angles and with wide bandwidth.
- Hui Feng Ma
- & Tie Jun Cui
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Monolithic nonlinear pulse compressor on a silicon chip
The development of optical information processing depends on the demonstration of silicon-based all-optical circuit components. Here, the authors show a monolithic pulse compressor, compatible with current electronic processing technologies, which is able to function at low power input.
- Dawn T.H. Tan
- , Pang C. Sun
- & Yeshaiahu Fainman
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Image transmission through an opaque material
The challenge of reconstructing the image of an object when viewed through an opaque material is of particular importance for biological tissues. Here, the authors show that it is possible to reconstruct the image of a complex object from interference patterns of multiple wavefronts using phase-shifting interferometry.
- Sébastien Popoff
- , Geoffroy Lerosey
- & Sylvain Gigan
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Article
| Open AccessPhase seeding of a terahertz quantum cascade laser
The phase of a laser pulse is usually random, which prevents its use for phase-resolved measurements. Here, the authors seed a quantum cascade laser with coherent terahertz pulses, forcing laser action to start on a fixed phase. This kind of laser could be used as a source in time-domain spectroscopy.
- Dimitri Oustinov
- , Nathan Jukam
- & Sukhdeep Dhillon
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No-go theorem for superradiant quantum phase transitions in cavity QED and counter-example in circuit QED
The authors show theoretically that in cavity quantum electrodynamics (QED), superradiant quantum phase transitions are forbidden. Conversely, for circuit QED, the quantum phase transition remains possible. This may pave the way for the study of interesting quantum phases.
- Pierre Nataf
- & Cristiano Ciuti
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Plasmonic nanoresonators for high-resolution colour filtering and spectral imaging
With the miniaturization of integrated optical devices, traditional colour filters are increasingly bulky. To supersede these, the authors devise a plasmonic metal–insulator–metal nanostructured array that can filter colours with high spatial and band resolution.
- Ting Xu
- , Yi-Kuei Wu
- & L. Jay Guo
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| Open AccessTunable quantum beam splitters for coherent manipulation of a solid-state tripartite qubit system
Coherent control of solid-state multi-qubit systems is highly desirable for quantum information. Here the authors show coupling, and control through Landau–Zener interference, of a superconducting qubit and two microscopic two-level systems, creating an interesting platform for quantum computation.
- Guozhu Sun
- , Xueda Wen
- & Siyuan Han
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Article
| Open AccessOn-chip CMOS-compatible all-optical integrator
One reason for using photonic devices is their speed—much faster than electronic circuits—but there are many challenges in integrating the two technologies. Ferreraet al. construct a CMOS-compatible monolithic optical waveform integrator, a key building block for photonic circuits.
- M. Ferrera
- , Y. Park
- & J. Azaña
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Article
| Open AccessThree-dimensional broadband ground-plane cloak made of metamaterials
Optical cloaking has already been demonstrated in two dimensions, and also in three dimensions for a limited range of angles. Now, Ma and Cui present a metamaterial-based cloaking device that can shield an object lying on the ground plane from all viewing angles at microwave frequencies.
- Hui Feng Ma
- & Tie Jun Cui
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Mapping multiple photonic qubits into and out of one solid-state atomic ensemble
Quantum communication applications require memories capable of storing multiple qubits. To implement scalable architectures for this purpose, Usmani and coworkers turn to a rare-earth doped silicate, in which they demonstrate coherent and reversible mapping of 64 optical modes at the single photon level.
- Imam Usmani
- , Mikael Afzelius
- & Nicolas Gisin
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