About Ulan Myrzakhan Ulan Myrzakhan Ph.D. Student, Electrical and Computer Engineering CMOS hybrid circuits Spin-based electronics Ulan Myrzakhan is a Ph.D. student working with Integrated Microwaves Packaging Antennas & Circuit Technology Research Group under the supervision of Prof. Atif Shamim at King Abdullah University of Science and Technology (KAUST). His research interests include the design of reconfigurable antennas and devices, with a focus on utilizing additive manufacturing techniques for fabrication and ferrite materials for tuning. Research Interests Ulan's research interests include spin-based electronics, Spintronics/CMOS hybrid circuits, and Multistate magnetic memory cells. Selected Publications U Events Presented Events May 5 - May 11, 2024 Magnetically Controlled Printed Phase Shifters and Reconfigurable Beam Scanning Arrays Ulan Myrzakhan, Ph.D. Student, Electrical and Computer Engineering May 8, 15:00 - 17:00 B4 L5 5220 Array antennas with reconfigurable frequency and polarization, as well as beam-steering capabilities, have become essential for modern wireless systems. Beyond potential cost and space savings, these versatile antennas are expected to enhance both the performance and the security of wireless communication. Traditional designs rely on a large number of active elements for this purpose, resulting in an expensive solution that also leads to complex feeding and biasing networks. Alternatively, reconfigurable operation in microwaves can be achieved through magnetic tuning of ferrite substrates, eliminating the need for active components. Further cost savings can be achieved if additive manufacturing is adopted. These two approaches will be utilized in this dissertation to develop a cost-effective and structurally simple phased array antenna with the desired level of versatility.
Magnetically Controlled Printed Phase Shifters and Reconfigurable Beam Scanning Arrays Ulan Myrzakhan, Ph.D. Student, Electrical and Computer Engineering May 8, 15:00 - 17:00 B4 L5 5220 Array antennas with reconfigurable frequency and polarization, as well as beam-steering capabilities, have become essential for modern wireless systems. Beyond potential cost and space savings, these versatile antennas are expected to enhance both the performance and the security of wireless communication. Traditional designs rely on a large number of active elements for this purpose, resulting in an expensive solution that also leads to complex feeding and biasing networks. Alternatively, reconfigurable operation in microwaves can be achieved through magnetic tuning of ferrite substrates, eliminating the need for active components. Further cost savings can be achieved if additive manufacturing is adopted. These two approaches will be utilized in this dissertation to develop a cost-effective and structurally simple phased array antenna with the desired level of versatility.
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