Generation of Nanometer Optical Tweezers Used
for Optical Communication Networks

A. Nikoukar; I. S. Amiri; J. Ali

Generation of Nanometer Optical Tweezers Used for Optical Communication Networks

A. Nikoukar¹, I. S. Amiri^2*, J. Ali²

Faculty of Computing, Universiti Teknologi Malaysia (UTM), 81300 Johor Bahru, Malaysia
Institute of Advanced Photonics Science, Nanotechnology Research Alliance, Universiti Teknologi Malaysia (UTM), 81310 Johor Bahru, Malaysia

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Abstract

A system of Half-Panda microring resonator (MRR) is proposed to generate ultra-short nanometer (nm) optical tweezers. The dark soliton propagates inside nonlinear MRR. Molecules or photons transport within the system when the dark soliton is used as input pulse. Nano optical tweezers can be generated and used to many applications in optical communication networks. Here the smallest nano optical tweezers signals with full width at half maximum (FWHM) of 9 nm is obtained where the free spectrum range (FSR) of 50 nm is simulated.

Keywords

Half-Panda, Nano optical tweezers; Optical Communication

INTRODUCTION

Nano optical tweezers technique has become a powerful tool for manipulation of micrometer-sized particles/photons in three spatial dimensions [1-6]. Dark-Gaussian soliton controls within a semiconductor add/drop multiplexer has numerous applications in optical communication [7-10]. For communication’s application purposes, the optical tweezers can be used to generate entangled photon within the proposed network system [11-14].

MRR’s are type of Fabry-Perot resonators which can be readily integrated in array geometries to implement many useful functions [15-21]. Amiri et al. have proposed the new design of secured packet switching, where this method uses nonlinear behaviors of light in MRR which can be used for high-capacity and security switching [22-24]. Recently quantum network shows promising usage for the perfect network security [25-29]. Amiri et al. have shown that the continuous wavelength can be generated by using a soliton pulse in a MRR [30-38]. The secret key codes are generated via the entangled photon pair which is used to security purposes using the dark soliton pulse propagation [39- 43]. In this study, a nano molecular cryptography system based on optical soliton is developed.

II. THEORETICAL MODELING

The multiplexer half-Panda system shown in figure (1) [44-48]. Dynamic behavior of the optical tweezers is appeared when the Gaussian soliton is input into the add port of the system [49-53]. The ring resonator is connected to the add-drop interferometer system with radius (Rring) of 10 ?m and coupling coefficient (κ) of 0.5. The effective area of the coupling section is Aeff=25 ?m2.

The input optical field (Ei1) of the dark soliton and add optical field (Ei2) of the Gaussian pulses are given by [54-59]

(1)

(2)

In equations (1) and (2), A and z are the optical field amplitude and propagation distance, respectively [60-62]. T is defined as soliton pulse propagation time in a frame moving at the group velocity [63, 64], T = t-β1×z, where β1 and β2 are the coefficients of the linear and second order terms of Taylor expansion of the propagation constant [65-67]. 2 2 0 L T ? D ? represents the dispersion length of the soliton pulse [68, 69]. The carrier frequency of the soliton is ω0.

When a soliton pulse keeps its temporal width invariance as it propagates, it is called a temporal soliton [70-72]. o T is known for the intensity of soliton peak as ? 2 ? 2 0 ? /?T [73, 74]. A balance should be achieved between the dispersion length (LD) and the nonlinear length (LNL= (1/γφNL) [75-77], where γ and φNL are the coupling loss of the field amplitude and nonlinear phase shift [78, 79]. They are the length scale over which dispersive or nonlinear effects makes the beam becomes wider or narrower [80, 81]. It means that the LD=LNL should be satisfied [82, 83]. Within the nonlinear medium, the refractive index (n) changes according to given following equation (3) [84-86],

(3)

n0 and n2 are the linear and nonlinear refractive indexes, respectively [87, 88]. I and P represent the optical intensity and optical power, respectively [89]. The effective mode core area of the device is given by Aeff [90]. In this work, the iterative method is inserted to obtain the needed results. Two complementary optical circuits of a ring-resonator adddrop filter can be expressed by the equations (4) and (5) [91, 92].

(4)

(5)

where Et and Ed represent the optical fields of the throughput and drop ports respectively [93-95]. β=kneff is the propagation constant [96, 97], neff is the effective refractive index of the waveguide and the circumference of the ring is Lad=2?Rad [98]. Rad is the radius of the ring. The phase constant can be simplified as Φ=βL [99, 100]. The chaotic noise cancellation can be managed by using the specific parameters of the add-drop device in which required signals can be retrieved by the specific users [101, 102]. The waveguide (ring resonator) loss is ?=0.5 dBmm-1. The fractional coupler intensity loss is ?= 0.1 [103, 104]. In the case of add-drop device, the nonlinear refractive index is neglected . The output fields, Et1 and Et2 at the throughput and drop parts of the Half-Panda are expressed by [105-107]

(6)

The electric field of the small ring on the right side of the Half-Panda system is given as:

(8)

where ring ring L ? 2? R and ring R is the radius of the ring and the 1 1 x ? 1?? , 2 2 x ? 1?? , 3 1 x ? 1?? , 4 2 x ? 1?? , 1 1 y ? 1?? dna 2 2 y ? 1?? [108-110].

III. RESULT AND DISCUSSION

The add-drop optical filter has radius of Rad = 15 ?m where the coupling coefficients are κ1 = 0.35 and κ2 = 0.25. The dark solitons are propagating inside the Half-Panda system with central wavelengths of ?0 = 1.4 ?m, 1.45 ?m, 1.5 ?m, 1.55 ?m, 1.6 ?m. In order to make the system associate with the practical device (InGaAsP/InP), the selected parameters of the system are fixed to 3.34 0 n ? and 17 2 2.5 10? n ? ? .

The signals can be controlled and tuned by power’s variation of the input Gaussian laser pulse. Figure (2) shows the generation of nanometer optical tweezers. Here the input powers of the optical dark soliton pulses and Gaussian laser beam are 2W and 2.5W respectively.

Filtered and clear optical tweezers are seen in figure (3) where the peaks have FWHM and FSR of 9 nm and 50 nm respectively. In the case of communication networks, generation of narrower signals is recommended. Therefore soliton signals can be used in optical communication where the capacity of the output signals can be improved by generation of peaks with smaller FWHM [111-113]. The sensitivity of the sensing systems such as optical sensors and ring resonators can be improved significantly by generation of peaks with wider space or bigger FSR [114-120].

In operation, the computing data can be modulated and input into the system via a wavelength router. Schematic of the wavelength router is shown in figure (4), in which quantum cryptography for internet security can be obtained

IV. CONCLUSION

Nanometer optical tweezers generation is presented for cryptography and secured optical communication. Nano optical tweezers can be generated by the dark soliton propagation in a Half-Panda system. Suitable parameters of the ring system such as the input power, coupling coefficient, ring radius, coupler loss and effective core area are used. The generated optical tweezers can be easily transmitted via a communication network system.

Figures at a glance


Figure 1	Figure 2	Figure 3	Figure 4

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I. S. Amiri, G. Vahedi, A. Nikoukar, A. Shojaei, J. Ali, and P. Yupapin (2012), "Decimal Convertor Application for Optical Wi relessCommunication by Generating of Dark and Bright Signals of soliton," International Journal of Engineering Research and Technology(IJERT), vol. 1.

I. S. Amiri, M. H. Khanmirzaei, M. Kouhnavard, and S. Mitatha (2010), "Quantum cryptography via a wavelength router for internetsecurity," in Piers Proceeding, Cambridge.

I. Sadegh Amiri, M. Nikmaram, A. Shahidinejad, and J. Ali (2013), "Generation of potential wells used for quantum codes transmissionvia a TDMA network communication system," Security and Communication Networks.

J. Ali, M. Roslan, M. Jalil, I. S. Amiri, A. Afroozeh, I. Nawi, et al. (2010), "DWDM enhancement in micro and nano waveguide,"presented at the AMN-APLOC International Conference, Wuhan, China.

A. Afroozeh, I. S. Amiri, M. Bahadoran, J. Ali, and P. P. Yupapin (2012), "Simulation of Soliton Amplification in Micro Ring Resonatorfor Optical Communication," Jurnal Teknologi (Sciences and Engineering), vol. 55, pp. 271-277.

A. Afroozeh, I. S. Amiri, A. Samavati, J. Ali, and P. Yupapin (2012), "THz frequency generation using MRRs for THz imaging," inInternational Conference on Enabling Science and Nanotechnology (EsciNano), Kuala Lumpur, Malaysia, pp. 1-2.

P. P. Yupapin, M. A. Jalil, I. S. Amiri, I. Naim, and J. Ali (2010), "New Communication Bands Generated by Using a Soliton Pulse withina Resonator System," Circuits and Systems, vol. 1, pp. 71-75.

J. Ali, I. S. Amiri, M. A. Jalil, F. K. Mohamad, and P. P. Yupapin (2010), "Optical dark and bright soliton generation and amplification,"presented at the Nanotech Malaysia, International Conference on Enabling Science & Technology, KLCC, Kuala Lumpur, Malaysia.

I. S. Amiri, A. Nikoukar, J. Ali, and P. P. Yupapin (2012), "Ultra-Short of Pico and Femtosecond Soliton Laser Pulse Using MicroringResonator for Cancer Cells Treatment," Quantum Matter, vol. 1, pp. 159-165.

M. Kouhnavard, A. Afroozeh, M. A. Jalil, I. S. Amiri, J. Ali, and P. P. Yupapin (2010), "Soliton Signals and the Effect of CouplingCoefficient in MRR Systems," in Faculty of Science Postgraduate Conference (FSPGC), Universiti Teknologi Malaysia.

J. Ali, A. Mohamad, I. Nawi, I. S. Amiri, M. Jalil, A. Afroozeh, et al. (2010), "Stopping a dark soliton pulse within an NNRR," presentedat the AMN-APLOC International Conference, Wuhan, China.

J. Ali, M. A. Jalil, I. S. Amiri, and P. P. Yupapin (2010), "MRR quantum dense coding," presented at the Nanotech Malaysia,International Conference on Enabling Science & Technology, KLCC, Kuala Lumpur, Malaysia.

J. Ali, H. Nur, S. Lee, A. Afroozeh, I. S. Amiri, M. Jalil, et al. (2010), "Short and millimeter optical soliton generation using dark andbright soliton," presented at the AMN-APLOC International Conference, Wuhan, China.

A. Afroozeh, M. Bahadoran, I. S. Amiri, A. R. Samavati, J. Ali, and P. P. Yupapin (2012), "Fast Light Generation Using GaAlAs/GaAsWaveguide," Jurnal Teknologi (Sciences and Engineering), vol. 57, pp. 17-23.

I. S. Amiri, A. Afroozeh, I. N. Nawi, M. A. Jalil, A. Mohamad, J. Ali, et al. (2011), "Dark Soliton Array for communication security,"Procedia Engineering, vol. 8, pp. 417-422.

M. A. Jalil, I. S. Amiri, C. Teeka, J. Ali, and P. P. Yupapin (2011), "All-optical Logic XOR/XNOR Gate Operation using Microring andNanoring Resonators," Global Journal of Physics Express, vol. 1, pp. 15-22.

I. S. Amiri, M. H. Khanmirzaei, M. Kouhnavard, P. P. Yupapin, and J. Ali, "Quantum Entanglement using Multi Dark Soliton Correlationfor Multivariable Quantum Router," in Quantum Entanglement, editor: A. M. Moran, New York: Nova Science Publisher, 2012, pp. 111-122.

A. Nikoukar, I. S. Amiri, A. Shahidinejad, A. Shojaei, J. Ali, and P. Yupapin (2012), "MRR quantum dense coding for optical wirelesscommunication system using decimal convertor," in Computer and Communication Engineering (ICCCE) Conference, Malaysia, pp. 770-774.

M. Bahadoran, I. S. Amiri, A. Afroozeh, J. Ali, and P. P. Yupapin (2011), "Analytical Vernier Effect for Silicon Panda Ring Resonator,"presented at the National Science Postgraduate Conference, NSPC Universiti Teknologi Malaysia.

A. A. Shojaei and I. S. Amiri (2011), "Soliton for Radio wave generation," presented at the International Conference for NanomaterialsSynthesis and Characterization (INSC), Kuala Lumpur, Malaysia.

A. Afroozeh, M. Bahadoran, I. S. Amiri, A. R. Samavati, J. Ali, and P. P. Yupapin (2011), "Fast Light Generation Using MicroringResonators for Optical Communication," presented at the National Science Postgraduate Conference, NSPC, Universiti TeknologiMalaysia.

C. Teeka, S. Songmuang, R. Jomtarak, P. Yupapin, M. Jalil, I. S. Amiri, et al. (2011), "ASK-to-PSK Generation based on NonlinearMicroring Resonators Coupled to One MZI Arm," in AIP Conference Proceedings, pp. 221-223.

J. Ali, K. Raman, M. Kouhnavard, I. S. Amiri, M. A. Jalil, A. Afroozeh, et al. (2011), "Dark soliton array for communication security,"presented at the AMN-APLOC International Conference, Wuhan, China.

I. S. Amiri, A. Nikoukar, and J. Ali (2010-2011), "Quantum Information Generation Using Optical Potential Well," presented at theNetwork Technologies & Communications (NTC) Conference, Singapore.

J. Ali, K. Raman, A. Afroozeh, I. S. Amiri, M. A. Jalil, I. N. Nawi, et al. (2010), "Generation of DSA for security application," presentedat the 2nd International Science, Social Science, Engineering Energy Conference (I-SEEC 2010), Nakhonphanom, Thailand.

M. Imran, R. A. Rahman, and I. S. Amiri (2010), "Fabrication of Diffractive Optical Element using Direct Writing CO2 LaserIrradiation," in Faculty of Science Postgraduate Conference (FSPGC), Universiti Teknologi Malaysia.

J. Ali, M. Kouhnavard, M. A. Jalil, and I. S. Amiri (2010), "Quantum signal processing via an optical potential well," presented at theNanotech Malaysia, International Conference on Enabling Science & Technology, Kuala Lumpur, Malaysia.

P. Bose, N. Paitya, S. Bhattacharya, D. De, S. Saha, K. Chatterjee, et al. (2012), "Influence of Light Waves on the Effective ElectronMass in Quantum Wells, Wires, Inversion Layers and Superlattices," Quantum Matter, vol. 1, pp. 89-126.

M. Narayanan and A. J. Peter (2012), "Pressure and Temperature Induced Non-Linear Optical Properties in a Narrow Band Gap QuantumDot," Quantum Matter, vol. 1, pp. 53-58.

T. Ono, Y. Fujimoto, and S. Tsukamoto (2012), "First-Principles Calculation Methods for Obtaining Scattering Waves to InvestigateTransport Properties of Nanostructures," Quantum Matter, vol. 1, pp. 4-19.

I. S. Amiri and J. Ali (2013), "Nano Particle Trapping By Ultra-short tweezer and wells Using MRR Interferometer System forSpectroscopy Application," Nanoscience and Nanotechnology Letters, vol. in press.

I. S. Amiri and J. Ali (2013), "Picosecond Soliton pulse Generation Using a PANDA System for Solar Cells Fabrication," Journal ofComputational and Theoretical Nanoscience (CTN), vol. in press.

A. Shahidinejad, A. Nikoukar, T. Anwar, and A. Selamat (2013), "Optical wireless quantum communication coding system using decimalconvertor," Optical and Quantum Electronics, pp. 1-9.

F. Karimi, M. Ahmadi, M. Rahmani, E. Akbari, M. J. Kiani, and M. Khalid (2012), "Analytical Modeling of Graphene-Based DNASensor," Science of Advanced Materials, vol. 4, pp. 1142-1147.

E. Akbari, M. Farsadi, I. Mat Darus, and R. Ghelichi (2010), "Observer design for active suspension system using sliding mode control,"in Research and Development (SCOReD), 2010 IEEE Student Conference on, pp. 207-212.

M. Rahmani, M. T. Ahmadi, H. K. Abadi, M. Saeidmanesh, E. Akbari, and R. Ismail (2013), "Analytical modeling of trilayer graphenenanoribbon Schottky-barrier FET for high-speed switching applications," Nanoscale research letters, vol. 8, p. 55.

E. Akbari, H. Feizabadi, M. Kiani, and M. Khalid (2012), "Control and designing observer for active suspension system by using linearquadratic regulator," in Enabling Science and Nanotechnology (ESciNano), 2012 International Conference on, pp. 1-2.