Habeeba Khan scite author profile

Habeeba Khan

3Publications

0Citation Statements Received

20Citation Statements Given

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Affiliations

Aligarh Muslim University, AT&T (United States), Indian Institute of Technology Hyderabad

Publications

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Antenna array design on flexible substrate for wireless power transfer

Khan

Ali

Wajid

et al. 2021

FEBE

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PurposeIn this work, a microstrip antenna array for wireless power transfer (WPT) application is reported. The proposed 4 × 4 antenna array operating at 16 GHz is designed using a flexible Kapton polyimide substrate for a far-field charging unit (FFCU).Design/methodology/approachThe proposed antenna is designed using the transmission line model on a flexible Kapton polyimide substrate. The finite element method (FEM) is used to perform the full-wave electromagnetic analysis of the proposed design.FindingsThe antenna offers −10 dB bandwidth of 240 MHz with beam width and broadside gain found to be 29.4° and 16.38 dB, respectively. Also, a very low cross-polarization level of −34.23 dB is achieved with a radiation efficiency of 36.67%. The array is capable of scanning −15° to +15° in both the elevation and azimuth planes.Originality/valueThe radiation characteristics achieved suggest that the flexible substrate antenna is suitable for wireless charging purposes.

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Quantum well electron transfer waveguide with high coupling efficiency to single-mode fiber

Khan

Zucker

Chang

et al. 1995

IEEE Photon. Technol. Lett.

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Characterization of Flexible Patch Antennas on Planar and Curved Surfaces

Khan

Ali

Wajid

et al. 2021

J. Phys.: Conf. Ser.

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This paper analyses patch antennas operating at 16 GHz on flexible Kapton polyimide substrate in various shapes, namely rectangular, circular, pentagon, hexagon, heptagon, and octagon. Their applications in medical areas, more particularly in wearable devices for E-health, are targeted. The bending effects of these antennas are studied, more specifically on gain, return loss, radiation characteristics, bandwidth, and beamwidth. A detailed comparison results showed that the rectangular patch had better performance even under the bending when the diameter of the surface is varied from 40mm to 120mm and maintains a gain of 4.8 dB at the given frequency. Under such extreme bending, the antennas operate satisfactorily with an efficiency of 43.424% to 47.41%.

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Habeeba Khan

Antenna array design on flexible substrate for wireless power transfer

Quantum well electron transfer waveguide with high coupling efficiency to single-mode fiber

Characterization of Flexible Patch Antennas on Planar and Curved Surfaces

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