Probing Light Matter Interactions In Atomically Thin 2d Material

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Probing Light-matter Interactions in Atomically Thin 2D Material

Author : Jonghwan Kim
Publisher :
ISBN 13 :
Total Pages : 71 pages
Book Rating : 4.:/5 (994 download)

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Book Synopsis Probing Light-matter Interactions in Atomically Thin 2D Material by : Jonghwan Kim

Download or read book Probing Light-matter Interactions in Atomically Thin 2D Material written by Jonghwan Kim and published by . This book was released on 2015 with total page 71 pages. Available in PDF, EPUB and Kindle. Book excerpt: Recently, atomically thin 2D materials have emerged as a new class of nanomaterial with extraordinary physical properties ranging from semi-metal (graphene), semiconductors (transition metal dichalcogenides) to insulators (hBN). Due to its unusual linear electronic spectrum, graphene has been studied as a platform where exotic quantum mechanical phenomena take place and electro-optical property can be greatly tuned by electrostatic gating. On the other hand, in semiconducting transition metal dichalcogenides (TMD), many body particles such as exciton and trion can be readily accessed even at room temperature due to strong Coulomb interaction. There are further exciting opportunities in heterostructures where layer-layer interaction provides new physics and functionalities. In this thesis, I explore light-matter interaction in 2D materials and their heterostructure with laser spectroscopy techniques. First of all, I study electromagnetic interaction between graphene and optical cavity via Rayleigh scattering spectroscopy. Although light-matter interaction in graphene is extremely strong for atomically thin thickness, overall optical response in macroscopic scale is still limited. Combination of graphene and resonant cavity can amplify the interaction dramatically. Therefore, it is important to understand the electromagnetic interaction between two systems. In this study, I find that the coupling can be explained by real and imaginary part of graphene dielectric constant which affects cavity resonance frequency and quality factor, respectively. In addition to fundamental interest, it also shows that this platform has promising potential for novel sensing application and electro-optical modulator. Secondly, I study valley-selective dipole interaction of exciton states in a monolayer transition metal dichalcogenides. Due to crystal symmetry, an extra degree of freedom, valley state, is available in this system. In analogy to spin state, it is important to understand and manipulate valley state with light. In this study, I demonstrate that valley excitonic states in a monolayer WSe2 can be manipulated by femtosecond pulse with the control of polarization. Ultrafast pump-probe spectroscopy shows that circularly-polarized femtosecond pulse induces valley-selective optical Stark effect which acts as a pseudomagnetic field. This demonstrates efficient and ultrafast control of the valley excitons with optical light, and opens up the possibility to coherent manipulate the valley polarization for quantum information applications. Lastly, I study interlayer interaction in heterostructure of MoS2/WS2 where strong exciton binding energy plays an important role. Simple band theory predicts that a heterostructure of two different semiconducting TMD layers forms type-II heterostructure. However, it is not clear how strong Coulomb interaction plays a role in terms of charge transfer dynamics. In this study, I demonstrate ultrafast charge transfer in MoS2/WS2 via both photoluminescence mapping and femtosecond (fs) pump-probe spectroscopy. Despite large exciton binding energy, hole transfer from the MoS2 layer to the WS2 layer takes place within 50 fs after optical excitation. Such ultrafast charge transfer in van der Waals heterostructures indicates that it can enable novel 2D devices for optoelectronics and light harvesting.

Probing the Response of Two-Dimensional Crystals by Optical Spectroscopy

Author : Yilei Li
Publisher : Springer
ISBN 13 : 331925376X
Total Pages : 80 pages
Book Rating : 4.3/5 (192 download)

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Book Synopsis Probing the Response of Two-Dimensional Crystals by Optical Spectroscopy by : Yilei Li

Download or read book Probing the Response of Two-Dimensional Crystals by Optical Spectroscopy written by Yilei Li and published by Springer. This book was released on 2015-11-09 with total page 80 pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis focuses on the study of the optical response of new atomically thin two-dimensional crystals, principally the family of transition metal dichalcogenides like MoS2. One central theme of the thesis is the precise treatment of the linear and second-order nonlinear optical susceptibilities of atomically thin transition metal dichalcogenides. In addition to their significant scientific interest as fundamental material responses, these studies provide essential knowledge and convenient characterization tools for the application of these 2D materials in opto-electronic devices. Another important theme of the thesis is the valley physics of atomically thin transition metal dichalcogenides. It is shown that the degeneracy in the valley degree of freedom can be lifted and a valley polarization can be created using a magnetic field, which breaks time reversal symmetry in these materials. These findings enhance our basic understanding of the valley electronic states and open up new opportunities for valleytronic applications using two-dimensional materials.

Probing Valley and Magnetic Photoexcitations in 2D Crystals and Their Heterostructures

Author : Kyle Lee Seyler
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (18 download)

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Book Synopsis Probing Valley and Magnetic Photoexcitations in 2D Crystals and Their Heterostructures by : Kyle Lee Seyler

Download or read book Probing Valley and Magnetic Photoexcitations in 2D Crystals and Their Heterostructures written by Kyle Lee Seyler and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Layered materials are excellent systems for investigating physics in two dimensions. Understanding the optical response of 2D layered materials and their heterostructures at the atomically thin limit is an important aspect of this field. Photoexcitations, such as excitons, critically impact future optoelectronic technologies, such as next-generation solar cells, light-emitting diodes, lasers, and single-photon sources. Moreover, they can provide deep insights into the rich electronic properties of the host crystals, especially in two dimensions, where stronger electron confinement, symmetry changes, and interfacial effects are often very influential. The 2D semiconducting transition metal dichalcogenides, for example, have garnered tremendous excitement for their strong light-matter interactions, which involve tightly bound excitons with intriguing spin-valley physics. Furthermore, newly discovered 2D magnets are unlocking new opportunities to explore magnetic photoexcitations in the atomically thin limit. This dissertation presents optical spectroscopy experiments that probe the fundamental photoexcitations within 2D semiconducting transition metal dichalcogenides, magnetic chromium triiodide (CrI3), and their van der Waals heterostructures. First, we show how second-harmonic generation spectroscopy serves as a powerful probe of excitons and trions in monolayer WSe2 and demonstrate an electrical exciton-based second-harmonic generation switch. We then add MoSe2 to the picture, forming MoSe2/WSe2 heterobilayers in which we reveal the valley-contrasting physics of long-lived free and trapped interlayer excitons. Next, we introduce atomically thin CrI3 and describe our observation of spontaneous circularly polarized photoluminescence. We also unravel its ligand-field and charge-transfer-dominated photoresponse, which broadens the landscape of 2D material photoexcitations beyond excitons. Finally, we combine ultrathin layers of CrI3 with monolayer WSe2, where we discover unprecedented control of valley excitons in monolayer WSe2 by magnetic proximity to CrI3.

Plasmonics and Light–Matter Interactions in Two-Dimensional Materials and in Metal Nanostructures

Author : Paulo André Dias Gonçalves
Publisher : Springer Nature
ISBN 13 : 3030382915
Total Pages : 232 pages
Book Rating : 4.0/5 (33 download)

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Book Synopsis Plasmonics and Light–Matter Interactions in Two-Dimensional Materials and in Metal Nanostructures by : Paulo André Dias Gonçalves

Download or read book Plasmonics and Light–Matter Interactions in Two-Dimensional Materials and in Metal Nanostructures written by Paulo André Dias Gonçalves and published by Springer Nature. This book was released on 2020-03-19 with total page 232 pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis presents a comprehensive theoretical description of classical and quantum aspects of plasmonics in three and two dimensions, and also in transdimensional systems containing elements with different dimensionalities. It focuses on the theoretical understanding of the salient features of plasmons in nanosystems as well as on the multifaceted aspects of plasmon-enhanced light–matter interactions at the nanometer scale. Special emphasis is given to the modeling of nonclassical behavior across the transition regime bridging the classical and the quantum domains. The research presented in this dissertation provides useful tools for understanding surface plasmons in various two- and three-dimensional nanostructures, as well as quantum mechanical effects in their response and their joint impact on light–matter interactions at the extreme nanoscale. These contributions constitute novel and solid advancements in the research field of plasmonics and nanophotonics that will help guide future experimental investigations in the blossoming field of nanophotonics, and also facilitate the design of the next generation of truly nanoscale nanophotonic devices.

Two-Dimensional Materials for Nonlinear Optics

Author : Qiang Wang
Publisher : John Wiley & Sons
ISBN 13 : 3527350594
Total Pages : 373 pages
Book Rating : 4.5/5 (273 download)

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Book Synopsis Two-Dimensional Materials for Nonlinear Optics by : Qiang Wang

Download or read book Two-Dimensional Materials for Nonlinear Optics written by Qiang Wang and published by John Wiley & Sons. This book was released on 2024-01-03 with total page 373 pages. Available in PDF, EPUB and Kindle. Book excerpt: Comprehensive resource covering concepts, perspectives, and skills required to understand the preparation, nonlinear optics, and applications of two-dimensional (2D) materials Bringing together many interdisciplinary experts in the field of 2D materials with their applications in nonlinear optics, Two-Dimensional Materials for Nonlinear Optics covers preparation methods for various novel 2D materials, such as transition metal dichalcogenides (TMDs) and single elemental 2D materials, excited-state dynamics of 2D materials behind their outstanding performance in photonic devices, instrumentation for exploring the photoinduced excited-state dynamics of the 2D materials spanning a wide time scale from ultrafast to slow, and future trends of 2D materials on a series of issues like fabrications, dynamic investigations, and photonic/optoelectronic applications. Powerful nonlinear optical characterization techniques, such as Z-scan measurement, femtosecond transient absorption spectroscopy, and microscopy are also introduced. Edited by two highly qualified academics with extensive experience in the field, Two-Dimensional Materials for Nonlinear Optics covers sample topics such as: Foundational knowledge on nonlinear optical properties, and fundamentals and preparation methods of 2D materials with nonlinear optical properties Modulation and enhancement of optical nonlinearity in 2D materials, and nonlinear optical characterization techniques for 2D materials and their applications in a specific field Novel nonlinear optical imaging systems, ultrafast time-resolved spectroscopy for investigating carrier dynamics in emerging 2D materials, and transient terahertz spectroscopy 2D materials for optical limiting, saturable absorber, second and third harmonic generation, nanolasers, and space use With collective insight from researchers in many different interdisciplinary fields, Two-Dimensional Materials for Nonlinear Optics is an essential resource for materials scientists, solid state chemists and physicists, photochemists, and professionals in the semiconductor industry who are interested in understanding the state of the art in the field.

Two-Dimensional Electronics and Optoelectronics

Author : Yoke Khin Yap
Publisher : MDPI
ISBN 13 : 3038424927
Total Pages : 153 pages
Book Rating : 4.0/5 (384 download)

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Book Synopsis Two-Dimensional Electronics and Optoelectronics by : Yoke Khin Yap

Download or read book Two-Dimensional Electronics and Optoelectronics written by Yoke Khin Yap and published by MDPI. This book was released on 2018-04-03 with total page 153 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is a printed edition of the Special Issue "Two-Dimensional Electronics and Optoelectronics" that was published in Electronics

2D Semiconductor Materials and Devices

Author : Dongzhi Chi
Publisher : Elsevier
ISBN 13 : 0128165898
Total Pages : 338 pages
Book Rating : 4.1/5 (281 download)

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Book Synopsis 2D Semiconductor Materials and Devices by : Dongzhi Chi

Download or read book 2D Semiconductor Materials and Devices written by Dongzhi Chi and published by Elsevier. This book was released on 2019-10-19 with total page 338 pages. Available in PDF, EPUB and Kindle. Book excerpt: 2D Semiconductor Materials and Devices reviews the basic science and state-of-art technology of 2D semiconductor materials and devices. Chapters discuss the basic structure and properties of 2D semiconductor materials, including both elemental (silicene, phosphorene) and compound semiconductors (transition metal dichalcogenide), the current growth and characterization methods of these 2D materials, state-of-the-art devices, and current and potential applications. Reviews a broad range of emerging 2D electronic materials beyond graphene, including silicene, phosphorene and compound semiconductors Provides an in-depth review of material properties, growth and characterization aspects—topics that could enable applications Features contributions from the leading experts in the field

Plasmonics: Fundamentals and Applications

Author : Stefan Alexander Maier
Publisher : Springer Science & Business Media
ISBN 13 : 0387378251
Total Pages : 234 pages
Book Rating : 4.3/5 (873 download)

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Book Synopsis Plasmonics: Fundamentals and Applications by : Stefan Alexander Maier

Download or read book Plasmonics: Fundamentals and Applications written by Stefan Alexander Maier and published by Springer Science & Business Media. This book was released on 2007-05-16 with total page 234 pages. Available in PDF, EPUB and Kindle. Book excerpt: Considered a major field of photonics, plasmonics offers the potential to confine and guide light below the diffraction limit and promises a new generation of highly miniaturized photonic devices. This book combines a comprehensive introduction with an extensive overview of the current state of the art. Coverage includes plasmon waveguides, cavities for field-enhancement, nonlinear processes and the emerging field of active plasmonics studying interactions of surface plasmons with active media.

Metasurfaces: Physics and Applications

Author : Sergey I. Bozhevolnyi
Publisher : MDPI
ISBN 13 : 3038973440
Total Pages : 167 pages
Book Rating : 4.0/5 (389 download)

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Book Synopsis Metasurfaces: Physics and Applications by : Sergey I. Bozhevolnyi

Download or read book Metasurfaces: Physics and Applications written by Sergey I. Bozhevolnyi and published by MDPI. This book was released on 2018-11-16 with total page 167 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is a printed edition of the Special Issue "Metasurfaces: Physics and Applications" that was published in Applied Sciences

Defects in Two-Dimensional Materials

Author : Rafik Addou
Publisher : Elsevier
ISBN 13 : 032390310X
Total Pages : 434 pages
Book Rating : 4.3/5 (239 download)

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Book Synopsis Defects in Two-Dimensional Materials by : Rafik Addou

Download or read book Defects in Two-Dimensional Materials written by Rafik Addou and published by Elsevier. This book was released on 2022-02-14 with total page 434 pages. Available in PDF, EPUB and Kindle. Book excerpt: Defects in Two-Dimensional Materials addresses the fundamental physics and chemistry of defects in 2D materials and their effects on physical, electrical and optical properties. The book explores 2D materials such as graphene, hexagonal boron nitride (h-BN) and transition metal dichalcogenides (TMD). This knowledge will enable scientists and engineers to tune 2D materials properties to meet specific application requirements. The book reviews the techniques to characterize 2D material defects and compares the defects present in the various 2D materials (e.g. graphene, h-BN, TMDs, phosphorene, silicene, etc.). As two-dimensional materials research and development is a fast-growing field that could lead to many industrial applications, the primary objective of this book is to review, discuss and present opportunities in controlling defects in these materials to improve device performance in general or use the defects in a controlled way for novel applications. Presents the theory, physics and chemistry of 2D materials Catalogues defects of 2D materials and their impacts on materials properties and performance Reviews methods to characterize, control and engineer defects in 2D materials

Coherent Light-Matter Interactions in Monolayer Transition-Metal Dichalcogenides

Author : Edbert Jarvis Sie
Publisher : Springer
ISBN 13 : 3319695541
Total Pages : 142 pages
Book Rating : 4.3/5 (196 download)

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Book Synopsis Coherent Light-Matter Interactions in Monolayer Transition-Metal Dichalcogenides by : Edbert Jarvis Sie

Download or read book Coherent Light-Matter Interactions in Monolayer Transition-Metal Dichalcogenides written by Edbert Jarvis Sie and published by Springer. This book was released on 2017-11-11 with total page 142 pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis presents optical methods to split the energy levels of electronic valleys in transition-metal dichalcogenides (TMDs) by means of coherent light-matter interactions. The electronic valleys found in monolayer TMDs such as MoS2, WS2, and WSe2 are among the many novel properties exhibited by semiconductors when thinned down to a few atomic layers, and have have been proposed as a new way to carry information in next generation devices (so-called valleytronics). These valleys are, however, normally locked in the same energy level, which limits their potential use for applications. The author describes experiments performed with a pump-probe technique using transient absorption spectroscopy on MoS2 and WS2. It is demonstrated that hybridizing the electronic valleys with light allows one to optically tune their energy levels in a controllable valley-selective manner. In particular, by using off-resonance circularly polarized light at small detuning, one can tune the energy level of one valley through the optical Stark effect. Also presented within are observations, at larger detuning, of a separate contribution from the so-called Bloch--Siegert effect, a delicate phenomenon that has eluded direct observation in solids. The two effects obey opposite selection rules, enabling one to separate the two effects at two different valleys.

Two-Dimensional Materials in Nanophotonics

Author : Yuerui Lu
Publisher : CRC Press
ISBN 13 : 0429767994
Total Pages : 189 pages
Book Rating : 4.4/5 (297 download)

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Book Synopsis Two-Dimensional Materials in Nanophotonics by : Yuerui Lu

Download or read book Two-Dimensional Materials in Nanophotonics written by Yuerui Lu and published by CRC Press. This book was released on 2019-10-31 with total page 189 pages. Available in PDF, EPUB and Kindle. Book excerpt: Two-dimensional (2D) materials have attracted tremendous interest since the study of graphene in the early 21st century. With their thickness in the angstrom-to-nanometer range, 2D materials, including graphene, transition metal dichalcogenides, phosphorene, silicene, and other inorganic and organic materials, can be an ideal platform to study fundamental many-body interactions because of reduced screening and can also be further engineered for nanophotonic applications. This book compiles research outcomes of leading groups in the field of 2D materials for nanophotonic physics and devices. It describes research advances of 2D materials for various nanophotonic applications, including ultrafast lasers, atomically thin optical lenses, and gratings to inelastically manipulate light propagation, their integrations with photonic nanostructures, and light–matter interactions. The book focuses on actual applications, while digging into the physics underneath. It targets advanced undergraduate- and graduate-level students of nanotechnology and researchers in nanotechnology, physics, and chemistry, especially those with an interest in 2D materials.

Fundamentals of Condensed Matter Physics

Author : Marvin L. Cohen
Publisher : Cambridge University Press
ISBN 13 : 0521513316
Total Pages : 461 pages
Book Rating : 4.5/5 (215 download)

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Book Synopsis Fundamentals of Condensed Matter Physics by : Marvin L. Cohen

Download or read book Fundamentals of Condensed Matter Physics written by Marvin L. Cohen and published by Cambridge University Press. This book was released on 2016-05-26 with total page 461 pages. Available in PDF, EPUB and Kindle. Book excerpt: Based on an established course and covering all the fundamentals, central areas and contemporary topics of this diverse field, Fundamentals of Condensed Matter Physics is a much-needed textbook for graduate students. Coverage of concepts and techniques ensures that both theoretically and experimentally inclined students gain the strong understanding needed for research and teaching.

2D Monoelemental Materials (Xenes) and Related Technologies

Author : Zongyu Huang
Publisher : CRC Press
ISBN 13 : 1000562840
Total Pages : 166 pages
Book Rating : 4.0/5 (5 download)

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Book Synopsis 2D Monoelemental Materials (Xenes) and Related Technologies by : Zongyu Huang

Download or read book 2D Monoelemental Materials (Xenes) and Related Technologies written by Zongyu Huang and published by CRC Press. This book was released on 2022-04-19 with total page 166 pages. Available in PDF, EPUB and Kindle. Book excerpt: Monoelemental 2D materials called Xenes have a graphene-like structure, intra-layer covalent bond, and weak van der Waals forces between layers. Materials composed of different groups of elements have different structures and rich properties, making Xenes materials a potential candidate for the next generation of 2D materials. 2D Monoelemental Materials (Xenes) and Related Technologies: Beyond Graphene describes the structure, properties, and applications of Xenes by classification and section. The first section covers the structure and classification of single-element 2D materials, according to the different main groups of monoelemental materials of different components and includes the properties and applications with detailed description. The second section discusses the structure, properties, and applications of advanced 2D Xenes materials, which are composed of heterogeneous structures, produced by defects, and regulated by the field. Features include: Systematically detailed single element materials according to the main groups of the constituent elements Classification of the most effective and widely studied 2D Xenes materials Expounding upon changes in properties and improvements in applications by different regulation mechanisms Discussion of the significance of 2D single-element materials where structural characteristics are closely combined with different preparation methods and the relevant theoretical properties complement each other with practical applications Aimed at researchers and advanced students in materials science and engineering, this book offers a broad view of current knowledge in the emerging and promising field of 2D monoelemental materials.

Probing Excitonic Mechanics in Suspended and Strained Transition Metal Dichalcogenides Monolayers

Author : Hongchao Xie
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (111 download)

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Book Synopsis Probing Excitonic Mechanics in Suspended and Strained Transition Metal Dichalcogenides Monolayers by : Hongchao Xie

Download or read book Probing Excitonic Mechanics in Suspended and Strained Transition Metal Dichalcogenides Monolayers written by Hongchao Xie and published by . This book was released on 2019 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Over the past decade, the interest in two-dimensional (2D) materials, especially for atomically thin transition metal dichalcogenide (TMD) semiconductors, had dramatically thrived for both fundamental science and practical applications. The reduced dielectric screening in 2D mainly attributes to the strong excitonic effect in atomically thin TMD semiconductors. This pronounced exciton feature can maintain at room temperature, which indicates strong light-matter interaction and possible optoelectronic application using monolayer semiconductors. Meanwhile, the absence of inversion symmetry and out-of-plane mirror symmetry jointly endows carriers in monolayer TMDs with a new valley degree of freedom (DOF). Namely, in hexagonally-arranged lattice of 2D materials, electrons that residing at band edges of K and K valleys can carry opposite valley magnetic moments and Berry curvatures, which allows the further control of valley-indexed carriers with polarized light, electrical and magnetic fields. Besides, the large strain sustainability of monolayer TMDs gives rise to mechanically tunable band gap with 70 meV redshift per 1% strain up to recorded 10% applied strain. Thus, the interaction of macroscopic mechanical means with valley electrons makes monolayer TMD semiconductor a promising platform to implement novel valley-controlled mechanical devices. This motivates the experimental studies demonstrated in this dissertation.In this dissertation, we investigate the valley contrasting coupling between optoelectronic carriers (exciton & flowing electrons) and mechanics in a monolayer TMD semiconductor. In the first parts (Chapter 1&2), I will present emerging properties of TMD monolayers and discuss interesting physics that can study after suspending or straining these atomically thin materials. The fabrication and measurement of typical TMD suspended devices will also be demonstrated in details. In the secondary part (Chapter 3), we demonstrate robust exciton bistability by continuous-wave optical excitation in a suspended monolayer WSe2 at a much lower intensity level of 103 W/cm2. The observed bistability is originated from a photothermal mechanism, which can provide both optical nonlinearity and internal passive feedback in a simple cavity-less structure. This is supported by detailed excitation wavelength and power dependence studies of the sample reflectance, as well as by numerical simulation including the temperature-dependent optical response of monolayer WSe2. Furthermore, under a finite magnetic field, the bistability becomes valley dependent and controllable not only by light intensity but also by light helicity due to the exciton valley Zeeman effect, which open up an exciting opportunity in controlling light with light using monolayer materials.In the following part (Chapter 4), we report the observation of exciton-optomechanical coupling in a suspended monolayer MoSe2 mechanical resonator. In particular, we have observed light-induced damping and anti-damping of mechanical vibrations and modulation of the mechanical spring constant by moderate optical pumping near the exciton resonance with variable detuning. The observed exciton-optomechanical coupling strength is also highly gate-tunable. Our observations can be fully explained by a model based on photothermal backaction and gate-induced mirror symmetry breaking in the device structure. The observation of gate-tunable exciton-optomechanical coupling in a monolayer semiconductor may find novel applications in nanoelectromechanical systems (NEMS) and in exciton-optomechanics.In the last part of this dissertation (Chapter 5), we present the study of magnetization purely originated from the valley DOF in strained MoS2 monolayers. By breaking the three-fold rotational symmetry in single-layer MoS2 via a uniaxial stress, we have demonstrated the pure electrical generation of valley magnetization in this material, and its direct imaging by Kerr rotation microscopy. The observed out-of-plane magnetization is independent of in-plane magnetic field, linearly proportional to the in-plane current density, and optimized when the current is orthogonal to the strain-induced piezoelectric field. These results are fully consistent with a theoretical model of valley magnetoelectricity driven by Berry curvature effects. Furthermore, the effect persists at room temperature, opening possibilities for practical valleytronic devices.

Atomic and Electronic Properties of 2D Moiré Interfaces

Author : Astrid Weston
Publisher : Springer Nature
ISBN 13 : 3031120930
Total Pages : 148 pages
Book Rating : 4.0/5 (311 download)

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Book Synopsis Atomic and Electronic Properties of 2D Moiré Interfaces by : Astrid Weston

Download or read book Atomic and Electronic Properties of 2D Moiré Interfaces written by Astrid Weston and published by Springer Nature. This book was released on 2022-10-06 with total page 148 pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis provides the first atomic length-scale observation of the structural transformation (referred to as lattice reconstruction) that occurs in moiré superlattices of twisted bilayer transition metal dichalcogenides (TMDs) at low (θ 2 ̊) twist angles. Such information is essential for the fundamental understanding of how manipulating the rotational twist-angle between two adjacent 2-dimensional crystals subsequently affects their optical and electrical properties./ppStudies using Scanning transmission electron microscopy (STEM), a powerful tool for atomic-scale imaging, were limited due to the complexity of the (atomically-thin) sample fabrication requirements. This work developed a unique way to selectively cut and re-stack monolayers of TMDs with a controlled rotational twist angle which could then be easily suspended on a TEM grid to meet the needs of the atomically thin sample requirements. The fabrication technique enabled the study of the two common stacking-polytypes including 3R and 2H (using MoS2 and WS2 as the example) as well as their structural evolution with decreasing twist-angle./ppAtomic-scale studies were followed by a comprehensive investigation of their electronic properties using scanning probe microscopy and electrical transport measurements of the artificially-engineered structures. The electronic structure of two common stacking-polytypes (3R and 2H) were strikingly different, as revealed by conductive atomic force microscopy. Further studies focused on the 3R-stacking polytype to reveal room-temperature out-of-plane ferroelectricity using tools such as kelvin probe force microscopy, scanning electron microscopy and electrical transport measurements. This work highlights that the unique intrinsic properties of TMDs (i.e. semiconductors with strongly light-matter interaction) combined with the additional twisted degree-of-freedom has great potential to create atomically thin transistors/LEDs with built-in memory storage functions and will further aid in the development of the next generation of optoelectronics.

Single Quantum Emitter Manipulation with 2D Materials

Author : Kevin Gerd Schädler
Publisher :
ISBN 13 :
Total Pages : 214 pages
Book Rating : 4.:/5 (112 download)

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Book Synopsis Single Quantum Emitter Manipulation with 2D Materials by : Kevin Gerd Schädler

Download or read book Single Quantum Emitter Manipulation with 2D Materials written by Kevin Gerd Schädler and published by . This book was released on 2018 with total page 214 pages. Available in PDF, EPUB and Kindle. Book excerpt: Photonics aims to manipulate light by controlling its interactions with matter to enable novel optical technologies for communication, information processing and sensing. Current efforts strive to enter the regime of quantum nanophotonics, where light interacts with nanoscale photonic elements at the single photon level. The realisation of such systems is challenging due to weak light-matter interaction at the nanoscale, which motivates the quest for new strategies and nanomaterials with enhanced interaction. In this context, nanoscale solid state quantum light emitters which mimic the efficient interactions of trapped atoms with light are a key element for implementing quantum optical devices on chip. The coupling of these quantum emitters to their nanoscale environment has two important consequences: i) controlling the environment enables control of the emitter, while conversely ii) the emitter acts as a nanoprobe of its environment. Therefore, hybrid systems which integrate such emitters with a controllable nano-environment enable manipulation of nanoscale quantum light. Two-dimensional (2D) materials are a particularly promising platform for this purpose due to their unique blend of optoelectronic and mechanical properties which enable efficient, tuneable light-matter interactions and sensitive nanomechanical resonators with ultra-low mass and high mechanical resonance frequency. In this thesis, I will introduce two different hybrid systems which integrate nanoscale quantum emitters with two-dimensional (2D) materials such as atomically thin graphene and MoS2. I will first present a hybrid nano-optomechanical system which harnesses efficient near-field interactions to couple the nano-motion of a 2D mechanical graphene resonator to the emission strength of a quantum emitter (nitrogen vacancy centre, NVC) at a separation below 40 nm. In this system, electromechanical control of graphene's nano-motion enables high-frequency (100 MHz) emission modulation, while conversely, the NVC acts as a transducer which enables optical readout of nano-motion in the photon counting regime. In the second part of the thesis, I demonstrate that single molecules embedded in organic nanocrystals in a polymer display bright single photon emission with ultra-narrow linewidth close to the lifetime-limited value (̃ 40 MHz). I show that these emitters can be integrated with 2D materials at sub-wavelength separation in a hybrid optoelectronic device without emission perturbation. Using the 2D materials as transparent electrodes, the device's nanoscale dimensions enable ultra-broadband tuning (tuning range > 400 GHz) and fast modulation (frequency ̃ 100 MHz) of the emission energy, which renders it an integrated, ultra-compact tuneable single photon source. These results demonstrate the potential of 2D materials for controlling quantum emitters and the use of an atomically small object to probe optoelectronic and mechanical properties of atomically thin materials.