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Author | Title | Accn# | Year | Item Type | Claims |
| 11 |
Jain, Vimal Kumar |
Solid State Physics |
I12244 |
2022 |
Book |
|
| 12 |
Barik, Puspendu |
Application of Quantum Dots in Biology and Medicine |
I12232 |
2022 |
Book |
|
| 13 |
Evstigneev, Mykhaylo |
Introduction to Semiconductor Physics and Devices |
I12222 |
2022 |
Book |
|
| 14 |
Nagl, Nathalie |
A New Generation of Ultrafast Oscillators for Mid-Infrared Applications |
I11968 |
2021 |
eBook |
|
| 15 |
Hays, Max |
Realizing an Andreev Spin Qubit |
I11935 |
2021 |
eBook |
|
| 16 |
Snowdon, Monika |
Methods of the Alignment-Relay Technique for Nanosystems |
I11900 |
2021 |
eBook |
|
| 17 |
Alvertis, Antonios M |
On Exciton???Vibration and Exciton???Photon Interactions in Organic Semiconductors |
I11874 |
2021 |
eBook |
|
| 18 |
Bauerhenne, Bernd |
Materials Interaction with Femtosecond Lasers |
I11873 |
2021 |
eBook |
|
| 19 |
Balkan, Naci |
Semiconductors for Optoelectronics |
I11855 |
2021 |
eBook |
|
| 20 |
Su, Ching-Hua |
Physics and Chemistry of Te and HgTe-based Ternary Semiconductor Melts |
I11825 |
2021 |
eBook |
|
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11.
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| Title | Solid State Physics |
| Author(s) | Jain, Vimal Kumar |
| Publication | Cham, 1. Imprint: Springer
2. Springer International Publishing, 2022. |
| Description | XXI, 542 p. 225 illus., 1 illus. in color : online resource |
| Abstract Note | The book has been designed as a textbook for graduate and postgraduate students of physics, material science, and engineering. This is the third edition of the textbook, that is updated to reflect recent works in the field. In this edition, some new topics have been introduced while some of the existing topics like phonons, Drude ???Lorentz model, Fermi levels, electrons, and holes, etc. are modified. Moreover, the book has complete information on semiconductor devices like tunnel diode, Gunn diode, photodiode, photoconductive diode, varactor diode, solar cell, LED, semiconductor lasers, and semiconductor detectors. All the chapters have been supplemented by solved and unsolved examples. Some of the chapters illustrate areas of current interest in solid-state physics to give the student practical working knowledge of the subject text in a simple and lucid manner. There is a fair amount of detail in the examples and derivations given in the text. Each section of the book has exercises to reinforce the concepts, and problems have been added at the end of each chapter. The detailed coverage and pedagogical tools make this an ideal textbook for students and researchers enrolled in graduate and postgraduate courses of physics, material science, and engineering |
| ISBN,Price | 9783030960179 |
| Keyword(s) | 1. CONDENSED MATTER
2. CONDENSED MATTER PHYSICS
3. EBOOK
4. EBOOK - SPRINGER
5. ELECTRONIC DEVICES
6. OPTICAL MATERIALS
7. QUANTUM PHYSICS
8. SEMICONDUCTORS
9. SOLID STATE PHYSICS
|
| Item Type | Book |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I12244 |
|
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On Shelf |
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12.
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| Title | Application of Quantum Dots in Biology and Medicine : Recent Advances |
| Author(s) | Barik, Puspendu;Mondal, Samiran |
| Publication | Singapore, 1. Imprint: Springer
2. Springer Nature Singapore, 2022. |
| Description | XIV, 268 p. 51 illus., 45 illus. in color : online resource |
| Abstract Note | This book illustrates various applications of quantum dots (QDs) in the biomedical field and future perspectives. It first introduces the synthesis procedures and fundamental properties of QDs. In addition, the optical detection techniques and toxicologic reviews of QDs are presented. A focus of the book is also on the applications of QDs in cancer therapy, drug delivery, bio-sensing, and targeted molecular therapy. This book is exciting and valuable to a wide variety of readership communities (students, early-stage researchers, and scientists) in the various fields of biology and medicine |
| ISBN,Price | 9789811931444 |
| Keyword(s) | 1. Biotechnology
2. EBOOK
3. EBOOK - SPRINGER
4. NANOTECHNOLOGY
5. Quantum dots
6. SEMICONDUCTORS
|
| Item Type | Book |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I12232 |
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On Shelf |
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13.
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| Title | Introduction to Semiconductor Physics and Devices |
| Author(s) | Evstigneev, Mykhaylo |
| Publication | Cham, 1. Imprint: Springer
2. Springer International Publishing, 2022. |
| Description | XIV, 323 p. 93 illus : online resource |
| Abstract Note | This classroom-tested textbook provides a self-contained one-semester course in semiconductor physics and devices that is ideal preparation for students to enter burgeoning quantum industries. Unlike other textbooks on semiconductor device physics, it provides a brief but comprehensive introduction to quantum physics and statistical physics, with derivations and explanations of the key facts that are suitable for second-year undergraduates, rather than simply postulating the main results. The book is structured into three parts, each of which can be covered in around ten lectures. The first part covers fundamental background material such as quantum and statistical physics, and elements of crystallography and band theory of solids. Since this provides a vital foundation for the rest of the text, concepts are explained and derived in more detail than in comparable texts. For example, the concepts of measurement and collapse of the wave function, which are typically omitted, are presented in this text in language accessible to second-year students. The second part covers semiconductors in and out of equilibrium, and gives details which are not commonly presented, such as a derivation of the density of states using dimensional analysis, and calculation of the concentration of ionized impurities from the grand canonical distribution. Special attention is paid to the solution of Poisson???s equation, a topic that is feared by many undergraduates but is brought back down to earth by techniques and analogies from first-year physics. Finally, in the third part, the material in parts 2 and 3 is applied to describe simple semiconductor devices, including the MOSFET, the Schottky and PN-junction diodes, and optoelectronic devices. With a wide range of exercises, this textbook is readily adoptable for an undergraduate course on semiconductor physics devices, and with its emphasis on consolidating and applying knowledge of fundamental physics, it will leave students in engineering and the physical sciences well prepared for a future where quantum industries proliferate |
| ISBN,Price | 9783031084584 |
| Keyword(s) | 1. EBOOK
2. EBOOK - SPRINGER
3. ELECTRONIC DEVICES
4. ELECTRONICS
5. Electronics and Microelectronics, Instrumentation
6. OPTICAL ENGINEERING
7. OPTOELECTRONIC DEVICES
8. PHOTONICS
9. Photonics and Optical Engineering
10. SEMICONDUCTORS
11. SOLID STATE PHYSICS
|
| Item Type | Book |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I12222 |
|
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On Shelf |
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14.
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| Title | A New Generation of Ultrafast Oscillators for Mid-Infrared Applications |
| Author(s) | Nagl, Nathalie |
| Publication | Cham, Springer International Publishing, 2021. |
| Description | XVII, 140 p. 75 illus. in color : online resource |
| Abstract Note | This thesis presents the first successful realization of a compact, low-noise, and few-cycle light source in the mid-infrared wavelength region. By developing the technology of pumping femtosecond chromium-doped II-VI laser oscillators directly with the emission of broad-stripe single-emitter laser diodes, coherent light was generated with exceptionally low amplitude noise ??? crucial for numerous applications including spectroscopy at high sensitivities. Other key parameters of the oscillator's output, such as pulse duration and output power, matched and even surpassed previous state-of-the-art systems. As a demonstration of its unique capabilities, the oscillator's powerful output was used to drive ??? without further amplification ??? the nonlinear generation of coherent mid-infrared light spanning multiple octaves. The resulting table-top system uniquely combines high brilliance and ultrabroad spectral bandwidth in the important mid-infrared spectral range. The rapid development of this technology is comprehensively and lucidly documented in this PhD thesis. Together with a thorough review of literature and applications, and an extensive analysis of the theoretical foundations behind ultrafast laser oscillators, the thesis will serve as a valuable reference for the construction of a new generation of mid-infrared light sources |
| ISBN,Price | 9783030897543 |
| Keyword(s) | 1. EBOOK
2. EBOOK - SPRINGER
3. LASER
4. Laser Technology
5. LASERS
6. PHOTONICS
7. QUANTUM OPTICS
8. SEMICONDUCTORS
9. Ultrafast Photonics
|
| Item Type | eBook |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I11968 |
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On Shelf |
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15.
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| Title | Realizing an Andreev Spin Qubit : Exploring Sub-gap Structure in Josephson Nanowires Using Circuit QED |
| Author(s) | Hays, Max |
| Publication | Cham, Springer International Publishing, 2021. |
| Description | XXIII, 184 p. 90 illus., 89 illus. in color : online resource |
| Abstract Note | The thesis gives the first experimental demonstration of a new quantum bit (???qubit???) that fuses two promising physical implementations for the storage and manipulation of quantum information ??? the electromagnetic modes of superconducting circuits, and the spins of electrons trapped in semiconductor quantum dots ??? and has the potential to inherit beneficial aspects of both. This new qubit consists of the spin of an individual superconducting quasiparticle trapped in a Josephson junction made from a semiconductor nanowire. Due to spin-orbit coupling in the nanowire, the supercurrent flowing through the nanowire depends on the quasiparticle spin state. This thesis shows how to harness this spin-dependent supercurrent to achieve both spin detection and coherent spin manipulation. This thesis also represents a significant advancement to our understanding and control of Andreev levels and thus of superconductivity. Andreev levels, microscopic fermionic modes that exist in all Josephson junctions, are the microscopic origin of the famous Josephson effect, and are also the parent states of Majorana modes in the nanowire junctions investigated in this thesis. The results in this thesis are therefore crucial for the development of Majorana-based topological information processing |
| ISBN,Price | 9783030838799 |
| Keyword(s) | 1. COMPUTER SCIENCE
2. EBOOK
3. EBOOK - SPRINGER
4. ELECTRONIC DEVICES
5. Models of Computation
6. Quantum computing
7. QUANTUM INFORMATION
8. SEMICONDUCTORS
9. SOLID STATE PHYSICS
|
| Item Type | eBook |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I11935 |
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On Shelf |
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16.
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| Title | Methods of the Alignment-Relay Technique for Nanosystems : Optimization and Innovation |
| Author(s) | Snowdon, Monika |
| Publication | Cham, Springer International Publishing, 2021. |
| Description | XXV, 263 p. 231 illus., 160 illus. in color : online resource |
| Abstract Note | This thesis addresses the problem of improving the alignment of carbon nanotubes (CNTs) in transistor applications, taking a unique approach using iptycenes acting as molecular tweezers in combination with a liquid crystal solvent. As part of a project to test the effectiveness of a multi-step method, the so-called Alignment Relay Technique (ART), this work contributed evidence for the selectivity and stability of ART, as well as providing the first proof-of-concept that ART can be used to create CNT field-effect transistors (FETs). The thesis effectively explains and illustrates the chemical synthesis of the tweezers, the concept and actualization of the technique, the various factors observed to influence deposition and selectivity, along with material fabrication using both photolithography and electron beam lithography. This research advances knowledge of transistors and expands the applications of small organic molecules in the field of materials science. Particular highlights of this thesis include: an extensive review of ART, its advantages, and limitations; development of new material chemistry methods for the optimization of semiconducting CNT selectivity; and a comprehensive exploration of fabrication and characterization of CNTFETs for future applications |
| ISBN,Price | 9783030844134 |
| Keyword(s) | 1. CARBON
2. Carbon Materials
3. CHEMISTRY
4. EBOOK
5. EBOOK - SPRINGER
6. ELECTRONIC DEVICES
7. IMAGING SYSTEMS
8. Imaging Techniques
9. MATERIALS
10. Materials???Analysis
11. Nanoscale Design, Synthesis and Processing
12. NANOTECHNOLOGY
13. SEMICONDUCTORS
14. SOLID STATE PHYSICS
|
| Item Type | eBook |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I11900 |
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On Shelf |
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17.
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| Title | On Exciton???Vibration and Exciton???Photon Interactions in Organic Semiconductors |
| Author(s) | Alvertis, Antonios M |
| Publication | Cham, Springer International Publishing, 2021. |
| Description | XIX, 202 p. 70 illus., 60 illus. in color : online resource |
| Abstract Note | What are the physical mechanisms that underlie the efficient generation and transfer of energy at the nanoscale? Nature seems to know the answer to this question, having optimised the process of photosynthesis in plants over millions of years of evolution. It is conceivable that humans could mimic this process using synthetic materials, and organic semiconductors have attracted a lot of attention in this respect. Once an organic semiconductor absorbs light, bound pairs of electrons with positively charged holes, termed `excitons???, are formed. Excitons behave as fundamental energy carriers, hence understanding the physics behind their efficient generation and transfer is critical to realising the potential of organic semiconductors for light-harvesting and other applications, such as LEDs and transistors. However, this problem is extremely challenging since excitons can interact very strongly with photons. Moreover, simultaneously with the exciton motion, organic molecules can vibrate in hundreds of possible ways, having a very strong effect on energy transfer. The description of these complex phenomena is often beyond the reach of standard quantum mechanical methods which rely on the assumption of weak interactions between excitons, photons and vibrations. In this thesis, Antonios Alvertis addresses this problem through the development and application of a variety of different theoretical methods to the description of these strong interactions, providing pedagogical explanations of the underlying physics. A comprehensive introduction to organic semiconductors is followed by a review of the background theory that is employed to approach the relevant research questions, and the theoretical results are presented in close connection with experiment, yielding valuable insights for experimentalists and theoreticians alike. |
| ISBN,Price | 9783030854546 |
| Keyword(s) | 1. Computational Physics and Simulations
2. COMPUTER SIMULATION
3. EBOOK
4. EBOOK - SPRINGER
5. ELECTRONIC STRUCTURE
6. Electronic Structure Calculations
7. Materials science???Data processing
8. MATHEMATICAL PHYSICS
9. OPTICAL ENGINEERING
10. OPTOELECTRONIC DEVICES
11. PHOTONICS
12. Photonics and Optical Engineering
13. Photovoltaic power generation
14. PHOTOVOLTAICS
15. Quantum chemistry???Computer programs
16. SEMICONDUCTORS
|
| Item Type | eBook |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I11874 |
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On Shelf |
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18.
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| Title | Materials Interaction with Femtosecond Lasers : Theory and Ultra-Large-Scale Simulations of Thermal and Nonthermal Pheomena |
| Author(s) | Bauerhenne, Bernd |
| Publication | Cham, Springer International Publishing, 2021. |
| Description | XXXII, 536 p. 224 illus., 161 illus. in color : online resource |
| Abstract Note | This book presents a unified view of the response of materials as a result of femtosecond laser excitation, introducing a general theory that captures both ultrashort-time non-thermal and long-time thermal phenomena. It includes a novel method for performing ultra-large-scale molecular dynamics simulations extending into experimental and technological spatial dimensions with ab-initio precision. For this, it introduces a new class of interatomic potentials, constructed from ab-initio data with the help of a self-learning algorithm, and verified by direct comparison with experiments in two different materials ??? the semiconductor silicon and the semimetal antimony. In addition to a detailed description of the new concepts introduced, as well as giving a timely review of ultrafast phenomena, the book provides a rigorous introduction to the field of laser???matter interaction and ab-initio description of solids, delivering a complete and self-contained examination of the topic from the very first principles. It explains, step by step from the basic physical principles, the underlying concepts in quantum mechanics, solid-state physics, thermodynamics, statistical mechanics, and electrodynamics, introducing all necessary mathematical theorems as well as their proofs. A collection of appendices provide the reader with an appropriate review of many fundamental mathematical concepts, as well as important analytical and numerical parameters used in the simulations |
| ISBN,Price | 9783030851354 |
| Keyword(s) | 1. Computational Physics and Simulations
2. COMPUTER SIMULATION
3. CONDENSED MATTER
4. CONDENSED MATTER PHYSICS
5. EBOOK
6. EBOOK - SPRINGER
7. Laser-Matter Interaction
8. LASERS
9. MATHEMATICAL PHYSICS
10. MOLECULAR DYNAMICS
11. SEMICONDUCTORS
12. Theoretical, Mathematical and Computational Physics
|
| Item Type | eBook |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I11873 |
|
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On Shelf |
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19.
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| Title | Semiconductors for Optoelectronics : Basics and Applications |
| Author(s) | Balkan, Naci;Erol, Ay??e |
| Publication | Cham, Springer International Publishing, 2021. |
| Description | XII, 292 p. 156 illus., 24 illus. in color : online resource |
| Abstract Note | This book provides in-depth knowledge about the fundamental physical properties of bulk and low dimensional semiconductors (LDS). It also explains their applications to optoelectronic devices. The book incorporates two major themes. The first theme, starts from the fundamental principles governing the classification of solids according to their electronic properties and leads to a detailed analysis of electronic band structure and electronic transport in solids. It then focuses on the electronic transport and optical properties of semiconductor compounds, size quantization and the analysis of abrupt p-n junctions where a full analysis of the fundamental properties of intrinsic and doped semiconductors is given. The second theme is device-oriented. It aims to provide the reader with understanding of the design, fabrication and operation of optoelectronic devices based on novel semiconductor materials, such as high-speed photo detectors, light emitting diodes, multi-mode and single-mode lasers and high efficiency solar cells. The book appeals to researchers and high-level undergraduate students |
| ISBN,Price | 9783319449364 |
| Keyword(s) | 1. EBOOK
2. EBOOK - SPRINGER
3. LASER
4. LASERS
5. Microwaves, RF Engineering and Optical Communications
6. OPTICAL MATERIALS
7. SEMICONDUCTORS
8. TELECOMMUNICATION
|
| Item Type | eBook |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I11855 |
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On Shelf |
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20.
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| Title | Physics and Chemistry of Te and HgTe-based Ternary Semiconductor Melts |
| Author(s) | Su, Ching-Hua |
| Publication | Cham, Springer International Publishing, 2021. |
| Description | XVII, 134 p. 87 illus., 15 illus. in color : online resource |
| Abstract Note | This book reviews the experimental measurements of density, thermal conductivity, viscosity, and electrical conductivity on the binary, pseudo-binary melts of the most advanced IR-detector material systems of HgCdTe and HgZnTe as well as the theoretical analyses of these results. The time-dependent measurements on the relaxation behavior of the thermophysical properties during rapid cooling of the melts were also performed to elucidate the characteristics of the structural fluctuation and transition of the melts. The author shows his research results which extend understanding of the solidification process in order to interpret and improve the experimental results of crystal growth and enhances the fundamental knowledge of heterophase fluctuations phenomena in the melts so as to improve the melt growth processes of all the semiconductor systems. An in-depth study on the thermophysical properties and their time-dependent structural dynamic processes taking place in the vicinity of the solid-liquid phase transition of the narrow homogeneity range HgTe-based ternary semiconductors as well as the structural analysis of the alloy homogenization process in the melt is needed to understand and to improve the crystal growth processes. This book is intended for graduate students and professionals in materials science as well as engineers preparing and developing optical devices with semiconductors. The theory of heterophase fluctuations of liquids is applicable to any many-body systems including condensed-matter physics and field theory |
| ISBN,Price | 9783030755867 |
| Keyword(s) | 1. Accelerator Physics
2. Characterization and Analytical Technique
3. EBOOK
4. EBOOK - SPRINGER
5. MATERIALS
6. Materials Engineering
7. Materials???Analysis
8. PARTICLE ACCELERATORS
9. SEMICONDUCTORS
|
| Item Type | eBook |
Multi-Media Links
Please Click here for eBook
Circulation Data
| Accession# | |
Call# | Status | Issued To | Return Due On | Physical Location |
| I11825 |
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On Shelf |
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