Nanocommunication networks / editors, Preecha P. Yupapin and Somsak Mitatha.
Material type:
TextSeries: Lasers and electro-optics research and technology series | Nanotechnology science and technology seriesPublisher: New York : Nova Science Publishers, [2012]Description: 1 online resourceContent type: - text
- computer
- online resource
- 9781614709145
- 1614709149
- 004.6 23
- TK7874.845
| Item type | Home library | Collection | Call number | Materials specified | Status | Date due | Barcode | |
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Electronic-Books
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OPJGU Sonepat- Campus | E-Books EBSCO | Available |
Includes bibliographical references and index.
Description based on print version record.
English.
NANOCOMMUNICATION NETWORKS; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: LIGHT PULSE IN MICRO/NANORING RESONATOR; 1.1. INTRODUCTION; 1.2. THEORETICAL BACKGROUND; 1.3. SIMULATION RESULTS; 1.4. APPLICATIONS ; 1.5. CONCLUSION; REFERENCES; Chapter 2: PANDARING RESONATOR; 2.1. INTRODUCTION; 2.2. A PANDA RING RESONATOR; 2.3. DYNAMIC PULSES PROPAGATION; 2.4. RESULTS AND DISCUSSION; 2.5. CONCLUSION; REFERENCES; Chapter 3: NEW COMMUNICATION BAND; 3.1. INTRODUCTION; 3.2. NEW COMMUNICATION BANDS USING GAUSSIAN PULSE; 3.3. NEW COMMUNICATION BANDS USING SOLITON.
3.4. AD HOC NETWORK USING FREQUENCY ENHANCEMENT 3.5. CONCLUSION; REFERENCES; Chapter 4: RANDOM BINARY CODE GENERATION; 4.1. INTRODUCTION; 4.2. THEORETICAL MODELLING; 4.3. RANDOM BINARY CODE GENERATION; 4.4. RANDOM CODE AND SECURITY ; 4.5. CONCLUSION; REFERENCES; Chapter 5: NANOELECTRONICS; 5.1. INTRODUCTION; 5.2. DARK-BRIGHT SOLITON CONVERSION; 5.3. SIMULTANEOUS ARITHMETIC OPERATION; 5.4. CONCLUSION; REFERENCES; Chapter 6: HYBRID TRANSCEIVER; 6.1. INTRODUCTION; 6.2. THEORY; 6.3. HYBRID TRANSCEIVER AND REPEATER; 6.4. HYRBID INTERFEROMETER; 6.5. CONCLUSION; REFERENCES.
Chapter 7: MOLECULAR COMMUNICATION7.1. INTRODUCTION; 7.2. THEORETICAL BACKGROUND; 7.3. MULTIVARIABLE TWEEZERS; 7.4. CONCLUSION; REFERENCES; Chapter 8: MOLECULAR NETWORKS; 8.1. INTRODUCTION; 8.2. TRANSPORTER GENERATION; 8.3. TRANSPORTER QUANTUM STATE ; 8.4. MULTI-QUANTUM MOLECULAR TRANSPORTATION ; 8.5. CONCLUSION; REFERENCES; Chapter 9: NANOPHOTONIC CIRCUITS; 9.1. INTRODUCTION; 9.2. DARK-BRIGHT SOLITON CONVERSION MECHANISM; 9.3. OPTICAL XOR/XNOR LOGIC GATE OPERATION; 9.4. OPERATION PRINCIPLE OF SIMULTANEOUS ALL-OPTICAL LOGIC GATES; 9.5. CONCLUSION; REFERENCES.
Chapter 10: DRUG DELIVERY AND DIAGNOSIS10.1. INTRODUCTION; 10.2. OPTICAL VORTEX GENERATION; 10.3. DRUG TRAPPING AND DELIVERY; 10.4. MOLECULAR DIAGNOSIS; 10.5. CONCLUSION; REFERENCES; Chapter 11: OPTICAL CRYPTOGRAPHY; 11.1. INTRODUCTION; 11.2. PROPOSED MODELING; 11.3. KEY SUPPRESSION AND RECOVERY; 11.4. OPTICAL CRYPTOGRAPHY SYSTEM; 11.5. CONCLUSION; REFERENCES; INDEX.
Optical devices have become interesting tools that can be used in various applications. The use of such devices have been investigated in many areas such as E/O (electrical/optical) and O/E(optical/electrical) signal converters; optical signal processing; optical sensor; optical communication and medicine, etc. More interesting applications have been introduced such as the use of a micro/nanoscale device, which has become both interesting and challenging. In this book, the behaviour of light(light pulse) within the micro and nanoscale device(ring resonator) is investigated. This can be integrated to form circuit and system devices that can be used for atom/molecule trapping and transportation; optical transistor; fast calculation device(optical gate); nanoscale communication and networks and a device for medical applications.
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