Chih‐Wei Lai scite author profile

The effect of quantum statistics in quantum gases and liquids results in observable collective properties among many-particle systems. One prime example is Bose-Einstein condensation, whose onset in a quantum liquid leads to phenomena such as superfluidity and superconductivity. A Bose-Einstein condensate is generally defined as a macroscopic occupation of a single-particle quantum state, a phenomenon technically referred to as off-diagonal long-range order due to non-vanishing off-diagonal components of the single-particle density matrix. The wavefunction of the condensate is an order parameter whose phase is essential in characterizing the coherence and superfluid phenomena. The long-range spatial coherence leads to the existence of phase-locked multiple condensates in an array of superfluid helium, superconducting Josephson junctions or atomic Bose-Einstein condensates. Under certain circumstances, a quantum phase difference of pi is predicted to develop among weakly coupled Josephson junctions. Such a meta-stable pi-state was discovered in a weak link of superfluid 3He, which is characterized by a 'p-wave' order parameter. The possible existence of such a pi-state in weakly coupled atomic Bose-Einstein condensates has also been proposed, but remains undiscovered. Here we report the observation of spontaneous build-up of in-phase ('zero-state') and antiphase ('pi-state') 'superfluid' states in a solid-state system; an array of exciton-polariton condensates connected by weak periodic potential barriers within a semiconductor microcavity. These in-phase and antiphase states reflect the band structure of the one-dimensional polariton array and the dynamic characteristics of metastable exciton-polariton condensates.

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Towards Bose–Einstein condensation of excitons in potential traps

Butov

Lai

Ivanov

et al. 2002

Nature

414

345

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An exciton is an electron-hole bound pair in a semiconductor. In the low-density limit, it is a composite Bose quasi-particle, akin to the hydrogen atom. Just as in dilute atomic gases, reducing the temperature or increasing the exciton density increases the occupation numbers of the low-energy states leading to quantum degeneracy and eventually to Bose-Einstein condensation (BEC). Because the exciton mass is small--even smaller than the free electron mass--exciton BEC should occur at temperatures of about 1 K, many orders of magnitude higher than for atoms. However, it is in practice difficult to reach BEC conditions, as the temperature of excitons can considerably exceed that of the semiconductor lattice. The search for exciton BEC has concentrated on long-lived excitons: the exciton lifetime against electron-hole recombination therefore should exceed the characteristic timescale for the cooling of initially hot photo-generated excitons. Until now, all experiments on atom condensation were performed on atomic gases confined in the potential traps. Inspired by these experiments, and using specially designed semiconductor nanostructures, we have collected quasi-two-dimensional excitons in an in-plane potential trap. Our photoluminescence measurements show that the quasi-two-dimensional excitons indeed condense at the bottom of the traps, giving rise to a statistically degenerate Bose gas.

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Observation of Bogoliubov excitations in exciton-polariton condensates

et al. 2008

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Characterization and adsorption properties of eggshells and eggshell membrane

Tsai

Yang

Lai

et al. 2006

Bioresource Technology

475

211

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The Empirical Correlation Between Size and Two‐Photon Absorption Cross Section of CdSe and CdTe Quantum Dots

Yang

Hsu

et al. 2006

Small

204

161

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The tuning of CdSe quantum dot (QDs) sizes, and consequently their corresponding two-photon absorption (TPA) cross section, has been systematically investigated. As the size (diameter) of the quantum dots increases, the TPA cross section is found to be empirically related via a power-law proportionality of 3.5+/-0.5 and 5.6+/-0.7 to the diameters of CdSe and CdTe QDs, respectively. The results are tentatively rationalized via a theoretical model of two-photon excitation properties in a system incorporating excitons and defects.

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Insulin‐Directed Synthesis of Fluorescent Gold Nanoclusters: Preservation of Insulin Bioactivity and Versatility in Cell Imaging

et al. 2011

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Surface-plasmon-mediated emission from metal-capped ZnO thin films

2005

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The effects of metal coating on the near-band-edge emission of ZnO thin films have been studied by photoluminescence and atomic force microscopy. Large enhancement in emission intensity has been observed from ZnO films when they are capped by Ag while negligible effect is seen on Au-coated films. In addition, the enhancement is found to increase with Ag thickness and the intensity eventually saturates at thickness of 200nm. By introducing MgO as a spacer between the metal coating and ZnO, the enhancement is shown to decrease with increasing the spacer thickness, which suggests the presence of the local fields induced by surface plasmons. As the emission energy of ZnO matches closely with the surface plasmon of Ag, it is speculated that the resonant coupling of the spontaneous emission in ZnO into the surface plasmons enhances the emission efficiency.

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Iridium‐Complex‐Functionalized Fe₃O₄/SiO₂ Core/Shell Nanoparticles: A Facile Three‐in‐One System in Magnetic Resonance Imaging, Luminescence Imaging, and Photodynamic Therapy

Lai

Wang

Lai

et al. 2008

Small

227

118

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Highly uniform Fe3O4/SiO2 core/shell nanoparticles functionalized by phosphorescent iridium complexes (Ir) have been strategically designed and synthesized. The Fe3O4/SiO2(Ir) nanocomposite demonstrates its versatility in various applications: the magnetic core provides the capability for magnetic resonance imaging and the great enhancement of the spin-orbit coupling in the iridium complex makes it well suited for phosphorescent labeling and simultaneous singlet oxygen generation to induce apoptosis.

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Chih‐Wei Lai

Coherent zero-state and π-state in an exciton–polariton condensate array

Towards Bose–Einstein condensation of excitons in potential traps

Observation of Bogoliubov excitations in exciton-polariton condensates

Characterization and adsorption properties of eggshells and eggshell membrane

The Empirical Correlation Between Size and Two‐Photon Absorption Cross Section of CdSe and CdTe Quantum Dots

Insulin‐Directed Synthesis of Fluorescent Gold Nanoclusters: Preservation of Insulin Bioactivity and Versatility in Cell Imaging

Surface-plasmon-mediated emission from metal-capped ZnO thin films

Iridium‐Complex‐Functionalized Fe₃O₄/SiO₂ Core/Shell Nanoparticles: A Facile Three‐in‐One System in Magnetic Resonance Imaging, Luminescence Imaging, and Photodynamic Therapy

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About

Chih‐Wei Lai

Coherent zero-state and π-state in an exciton–polariton condensate array

Towards Bose–Einstein condensation of excitons in potential traps

Observation of Bogoliubov excitations in exciton-polariton condensates

Characterization and adsorption properties of eggshells and eggshell membrane

The Empirical Correlation Between Size and Two‐Photon Absorption Cross Section of CdSe and CdTe Quantum Dots

Insulin‐Directed Synthesis of Fluorescent Gold Nanoclusters: Preservation of Insulin Bioactivity and Versatility in Cell Imaging

Surface-plasmon-mediated emission from metal-capped ZnO thin films

Iridium‐Complex‐Functionalized Fe3O4/SiO2 Core/Shell Nanoparticles: A Facile Three‐in‐One System in Magnetic Resonance Imaging, Luminescence Imaging, and Photodynamic Therapy

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Product

Resources

About

Iridium‐Complex‐Functionalized Fe₃O₄/SiO₂ Core/Shell Nanoparticles: A Facile Three‐in‐One System in Magnetic Resonance Imaging, Luminescence Imaging, and Photodynamic Therapy