| 排行 |
預約次數 |
書刊名 |
| 1 |
49 |
Handbook of nanostructured materials and nanotechnology / |
| 2 |
25 |
Introduction to magnetic materials / |
| 3 |
24 |
Photonic crystals :molding the flow of light / |
| 4 |
22 |
Optical properties of photonic crystals / |
| 5 |
19 |
Quantum wells, wires, and dots :theoretical and computational physics / |
| 6 |
18 |
Fundamentals of photonics / |
| 7 |
18 |
Modeling, synthesis, and rapid prototyping with the Verilog HDL / |
| 8 |
17 |
Microsystem design / |
| 9 |
16 |
Design of analog CMOS integrated circuits / |
| 10 |
16 |
Linear algebra / |
| 11 |
15 |
Classical mechanics / |
| 12 |
15 |
Concepts of modern physics / |
| 13 |
14 |
Carbon nanotubes :synthesis, structure, properties, and applications / |
| 14 |
14 |
Electrochemistry of nanomaterials / |
| 15 |
14 |
OFDM for wireless multimedia communications / |
| 16 |
13 |
Monolithic phase-locked loops and clock recovery circuits :theory and design / |
| 17 |
13 |
Nanostructured materials and nanotechnology / |
| 18 |
13 |
Numerical recipes in C :the art of scientific computing / |
| 19 |
13 |
Operating system concepts / |
| 20 |
13 |
Quantum mechanics / |
| 21 |
13 |
RF microelectronics / |
| 22 |
13 |
Solid state electronic devices / |
| 23 |
13 |
TFT/LCD :liquid-crystal displays addressed by thin-film transistors/ |
| 24 |
13 |
The finite element method using MATLAB / |
| 25 |
12 |
An introduction to microelectromechanical systems engineering / |
| 26 |
12 |
Discrete-time signal processing / |
| 27 |
12 |
Harry Potter and the Chamber of Secrets / |
| 28 |
12 |
Introduction to probability models / |
| 29 |
12 |
Optics of liquid crystal displays / |
| 30 |
11 |
Compilers, principles, techniques, and tools / |
| 31 |
11 |
Nanotechnolgy / |
| 32 |
11 |
Photonic crystals and light localization in the 21st century :Proceedings of the NATO Advanced Study Institute on Photonic Crystals and Light Localization, Limi |
| 33 |
11 |
Principles of communications :systems, modulation, and noise / |
| 34 |
11 |
Sol-gel science :the physics and chemistry of sol-gel processing / |
| 35 |
10 |
802.11 wireless networks :the definitive guide / |
| 36 |
10 |
Digital communications / |
| 37 |
10 |
ERP :tools, techniques, and applications for integrating the supply chain / |
| 38 |
10 |
Essentials of electronic testing for digital, memory, and mixed-signal VLSI circuits / |
| 39 |
10 |
Foundations for microwave engineering / |
| 40 |
10 |
Harry Potter and the philosopher's stone / |
| 41 |
10 |
Introduction to solid state physics / |
| 42 |
10 |
MEMS and MOEMS :technology and applications / |
| 43 |
10 |
MOSFET models for SPICE simulation including BSIM3v3 and BSIM4 / |
| 44 |
10 |
Microelectronic circuits / |
| 45 |
10 |
Microscale energy transport / |
| 46 |
10 |
Microwave engineering / |
| 47 |
10 |
Modern VLSI design :systems on silicon / |
| 48 |
10 |
Nanoparticles and nanostructured films :preparation, characterization and applications / |
| 49 |
10 |
Optics / |
| 50 |
10 |
Single charge tunneling :Coulomb blockade phenomena in nanostructures / |
| 51 |
10 |
Verilog HDL :a guide to digital design and synthesis / |
| 52 |
10 |
Verilog styles for synthesis of digital systems / |
| 53 |
9 |
Communications receivers :DSP, software radios, and design / |
| 54 |
9 |
Digital signal processing laboratory using MATLAB / |
| 55 |
9 |
Electrochemical methods :fundamentals and applications / |
| 56 |
9 |
Electronic circuit analysis and design / |
| 57 |
9 |
Fuel cell systems explained / |
| 58 |
9 |
Fundamentals of microfabrication / |
| 59 |
9 |
Fundamentals of microsystems packaging / |
| 60 |
9 |
Mathematical analysis |
| 61 |
9 |
Microwave transistor amplifiers :analysis and design / |
| 62 |
9 |
Modern optical engineering :the design of optical systems / |
| 63 |
9 |
Modern quantum mechanics / |
| 64 |
9 |
Nanomaterials :synthesis, properties, and applications / |
| 65 |
9 |
Numerical methods with MATLAB :implementations and applications / |
| 66 |
9 |
Phase-locked loops :design, simulation, and applications / |
| 67 |
9 |
Physical chemistry :a molecular approach / |
| 68 |
9 |
RF and microwave wireless systems / |
| 69 |
9 |
RF circuit design :theory and applications / |
| 70 |
9 |
Scanning force microscopy :with applications to electric, magnetic,and atomic forces / |
| 71 |
9 |
Signal processing advances in wireless and mobile communications / |
| 72 |
9 |
Synchronization techniques for digital receivers / |
| 73 |
9 |
The art of analog layout / |
| 74 |
9 |
The art of molecular dynamics simulation / |
| 75 |
9 |
The mathematics of diffusion / |
| 76 |
9 |
Theory of dielectric optical waveguides / |
| 77 |
8 |
Advanced ASIC chip synthesis :using Synopsys Design Compiler and PrimeTime / |
| 78 |
8 |
Advanced engineering mathematics / |
| 79 |
8 |
Advanced theory of semiconductor devices / |
| 80 |
8 |
An introduction to support vector machines :and other kernel-based learning methods / |
| 81 |
8 |
Analog circuit design :RF analog-to-digital converters, sensor and actuator interfaces : low-noise oscillators, PLLs and synthesizers / |
| 82 |
8 |
Analysis and design of analog integrated circuits / |
| 83 |
8 |
Communication systems / |
| 84 |
8 |
Diffusion in solids / |
| 85 |
8 |
Fundamentals of convolutional coding / |
| 86 |
8 |
Fundamentals of electric circuits / |
| 87 |
8 |
Harry Potter and the goblet of fire / |
| 88 |
8 |
IELTS practice tests / |
| 89 |
8 |
Introduction to algorithms / |
| 90 |
8 |
Introduction to algorithms :a creative approach / |
| 91 |
8 |
Introduction to computational molecular biology / |
| 92 |
8 |
Introduction to digital communication / |
| 93 |
8 |
Linear algebra with applications / |
| 94 |
8 |
Microstrip filters for RF/microwave applications / |
| 95 |
8 |
Nano-surface chemistry / |
| 96 |
8 |
Nanostructured materials :science & technology / |
| 97 |
8 |
Optical electronics in modern communications / |
| 98 |
8 |
Optics / |
| 99 |
8 |
Physical properties of carbon nanotubes / |
| 100 |
8 |
Quantum dot heterostructures / |
