By Preecha Yupapin
""This booklet represents an intensive number of the main up-to-date reviews approximately nanophotonics and its functions. this is often an attractive paintings and a very good reference for uplifting scientists and scholars, particularly for these looking suggestion from the main attention-grabbing discoveries within the box of nanophotonics."" -Prof. Asghar Asgari, The college of Western Australia. Read more...
summary: ""This publication represents an intensive choice of the main up to date experiences approximately nanophotonics and its purposes. this can be an engaging paintings and a very good reference for uplifting scientists and scholars, specially for these looking concept from the main interesting discoveries within the box of nanophotonics."" -Prof. Asghar Asgari, The college of Western Australia
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Extra resources for Nanophotonics: devices, circuits, and systems
By using the dark-bright soliton conversion behavior and the add/drop optical filter (MRR2 and MRR3), both input signals are generated again by the first-stage add/drop optical filter. In the next step, the input data “B” with logic “0” (dark soliton) and logic “1” (bright soliton) are added into both add ports, then the dark-bright soliton conversion behavior, with the phase shift p, is operated again. For large-scale modeling (Fig. 2c), the optical logic operation results obtained are simultaneously seen at the drop ports (D2 and D3) and through ports (T2 and T3) of the microring resonator MRR2 and MRR3 respectively.
Jalil, C. Teeka, J. Ali, and P. P. Yupapin, “Optical vortices generated by a PANDA ring resonator for drug trapping and delivery applications,” Biomed. Opt. Express, 2(1), 159–168 (2011). 2. P. P. Yupapin, N. Suwanpayak, B. Jukgoljun, and C. Teeka, “Hybrid transceiver using a PANDA ring resonator for nanocommunication,” Phys. Express, 1(1), 1–9 (2011). 3. M. Tasakorn, C. Teeka, R. Jomtarak, and P. P. Yupapin, “Multitweezers generation control within a nanoring resonator system,” Opt. , 49(7), 75002 (2010).
Nowadays, the use of all-optical signal processing has increased significantly. Although various architectures, algorithms, and logical and arithmetic operations have been proposed, such as systems of semiconductor optical amplifier (SOA) [1–4], a quantum dot [5, 6], a terahertz optical asymmetric demultiplex (TOAD) [7, 8], cascaded microring resonators , an all-optical arithmetic unit [10, 11], an all-optical binary counter , and an all-optical adder [13, 14], these systems are complex and most of them cannot be reduced in size.