Komal Sharma
University of Rajasthan
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Publication
Featured researches published by Komal Sharma.
international conference on conceptual structures | 2016
Dheeraj Bhardwaj; Gitansh Gulati; Srishti Saraswat; Komal Sharma
The bandwidth enhancement of a stacked non-uniform electromagnetically coupled H-shaped Microstrip Antenna (SNHMA) with tapered edges is analyzed and simulated using the IE3D simulator. The proposed antenna prototype is drafted on FR-4 material and stacked further with an air discontinuity of 0.3u2005mm to the next layer. The various parameters optimized to achieve the best performance from the modified SNHMA primarily include a)length b)width of the patch c)air gap thickness. The redesigned antenna serves at two distinct frequencies with an elevated bandwidth of 30.85 % at the central frequency 5.762u2005GHz, approximately four times the bandwidth of the standard patch having the same dimensions. The simulated radiation patterns (E-plane and H-plane) are exhibited within the range of frequencies where the broadband response is observed. The specifications of the proposed structure make it promising for the higher band of Wi-MAX applications.
international conference on conceptual structures | 2016
Dheeraj Bhardwaj; Shriti Saraswat; Gitansh Gulati; Snehanshu Shekhar; Kanika Joshi; Komal Sharma
In this paper a dual band planar antenna has been proposed for IEEE 802.16 Wi-MAX /IEEE 802.11 WLAN/4.9u2005GHz public safety applications. The antenna comprises a frequency bandwidth of 560MHz (3.37GHz-3.93GHz) for WLAN and WiMAX and 372MHz (4.82GHz-5.192GHz) for 4.9u2005GHz public safety applications and Radio astronomy services (4.8-4.94u2005GHz). The proposed antenna constitutes of a single microstrip patch reactively loaded with three identical steps positioned in a zig-zag manner towards the radiating edges of the patch. The coaxially fed patch antenna characteristics (radiation pattern, antenna gain, antenna directivity, current distribution, S11) have been investigated. The antenna design is primarily focused on achieving a dual band operation.
Archive | 2016
Dheeraj Bhardwaj; Aayush Dwivedi; Nidhi Jain; Komal Sharma
This paper demonstrates the Dual resonator Broadband microstrip patch antenna for X-band applications with high bandwidth and gain. The antenna has wide bandwidth of 3880 MHz (7.12–11.0 GHz) or 42.76 % and covers wide band of X-band. 10.0 and 10.5 GHz are two resonant frequencies for the designed antenna. The antenna presented in this paper is microstrip patch antenna with rectangular geometry which has multilayer arrangement with two biangular uniform slots, which has been fed by Electromagnetic coupling with air-gap. This antenna designed and simulated has been carried out by IE3D simulation software.
Archive | 2016
Dheeraj Bhardwaj; Gitansh Gulati; Lakshit Bhardwaj; Komal Sharma
The paper presents a triangle-shaped patch antenna designed for WLAN systems operating in the range of 5150–5350 MHz (IEEE 802.11 a,n) and 5725–5825 MHz (IEEE 802.11 a,n). This paper presents a single-layered equilateral triangle-shaped microstrip patch antenna having rectangular slots and one stub. The simulated antenna is resonating at two resonance frequencies 5.20 and 5.76 GHz with 18.01 % impedance bandwidth and, 7.94 and 6.24 dBi directivity, respectively. The performance along with the design of the patch antenna is optimized considering different slot variance to obtain an antenna with high gain and efficient bandwidth. The E-palne and H-plane radiation pattern have also been synthesized in accordance with the other parameters. The substrate material of FR4 Lossy with relative permittivity 4.4 and loss tangent of 0.025 is used in this proposed antenna. All the simulation work is carried using IE3D software.
DAE SOLID STATE PHYSICS SYMPOSIUM 2015 | 2016
Jyoti Sharma; Neha Sharma; Premlata Yadav; Jyoti Parashar; Priya Jadoun; V. K. Saxena; D. Bhatnagar; Komal Sharma
The structural and magnetic properties of magnesium substituted cobalt nano ferrites CoxMg1-xFe2O4 (x= 0.2, 0.4 and 1.0) have been investigated. The structural characterization has been done by X-ray diffraction (XRD) technique and transmission electron microscopy (TEM). The magnetic studies indicate that the samples show ferromagnetic behaviour at room temperature as well as at low temperature. The magnetization decreases with Mg content in both the cases due to the less magnetic nature of Mg ions than that of the Co ions.
international conference on communication systems and network technologies | 2012
Komal Sharma; Dheeraj Bhardwaj; Jyoti Sharma
A Multi Frequency wide Band Rectangular Patch Micro strip Antenna with T Shaped Slot with shorting wall (RPMATSSSW) is designed on glass epoxy FR-4 substrate. The performance of this antenna is compared with that of a simple rectangular patch antenna. The simulated results for this antenna are optimized by varying position, length and width of T shaped slot and also by introducing two shorting wall. The results indicate that the designed structure resonate at various closely spaced frequencies (as shown in figure-4) which are use full for Ultra wide band (UWB) communication systems, which has been allocated IEEE 802.15.3a standard for specifies the frequency range 3.1GHz to 10.6GHz. The Modified antenna offers much improved bandwidth 76.71% at central resonance frequency 7.62GHz in comparison to a rectangular patch antenna (having band width 3.27%). The directivity of antenna also improves significantly at some of the resonance frequencies.
ieee applied electromagnetics conference | 2009
Dheeraj Bhardwaj; Komal Sharma; D. Bhatnagar; S. Sancheti
The paper presents the performance of a parasitically coupled semi circular elliptical ring antenna surrounding elliptical patch geometry having air gap between conducting patch and ground plane. With proposed modifications in the conventional circular patch geometry, the bandwidth of modified antenna with an air gap is around seven times higher than that of a simple circular patch antenna. The gain, directivity and efficiency of modified circular patch antenna with air gap is also improved to some extent but still these are less than desired values. The E and H plane radiation patterns presented by antenna in the frequency range where broadband performance is obtained are identical in shape and nature. Direction of maximum intensity retained by antenna at both frequencies is normal to patch geometry.
Archive | 2010
Dheeraj Bhardwaj; Komal Sharma; D. Bhatnagar; S. Sancheti; B Soni
Archive | 2014
Dheeraj Bhardwaj; Deepak Verma; Komal Sharma
Archive | 2014
Dheeraj Bhardwaj; O. P. Sharma; C. K. Dubey; Komal Sharma