Möbius Strips and Metamaterial Symmetry: Theory and Applications
The inherent disposition of scientists and philosophers is to envision, explore, and speculate about new things in this vast cosmos. The vastness of the cosmos makes us believe that we live in higher dimensions, or Möbius-shaped universes, where one can traverse the entire path without crossing the boundary or edge, if any, with no end. Since its discovery, the Möbius strip has captured the imagination of mathematicians and engineers everywhere, and it continues to fascinate modern generations with its non-orientability and one-sidedness. The unique features of Möbius strips promise new inventions, recurring in an endless loop; one might say that the future resides on the surface of Möbius strips,
Date and Time
Location
Hosts
Registration
-
Add Event to Calendar
- 201 McLean Blvd.
- Synergy Microwave Corporation
- Paterson, New Jersey
- United States 07504
- Contact Event Hosts
-
- Co-sponsored by IEEE North Jersey Section
- Starts 01 July 2024 03:00 PM UTC
- Ends 05 July 2024 09:00 PM UTC
- No Admission Charge
Speakers
Prof. Ulrich L Rohde of BTU Cottbus
Möbius Strips and Metamaterial Symmetry: Theory and Applications
Artificial harmful index materials (metamaterials) have been newsworthy for several years. This presentation investigates how implementing MTM microwave resonators can achieve advantageous properties, showing that the metamaterial Möbius resonator can achieve high Qfactors.
In this talk, the speaker will discuss several metamaterial Möbius resonator tunable oscillator circuits,22 showing that oscillators using these resonators offer promising performance.
Email:
Address:52 Hillcrest Drive, Upper Saddle River, New Jersey, USA, , Upper Saddle River, United States, 074584
Dr. Ajay Poddar of Synergy Microwave Corp., 201 McLean Boulevard, Paterson, NJ, USA
Metamaterial Möbius Strip Resonators for Tunable Oscillators
This talk discusses metamaterial Möbius strip resonators and addresses their use in signal sources for test and measurement equipment and wireless communications systems. The resonators enable tunable, multiband oscillators with smaller sizes and lower power consumption compared to separate oscillators for each band. The signal sources described in this article demonstrate significant improvements in the figure of merit (FOM) for a given phase noise, tuning range, power consumption, size, and cost. With MMIC fabrication techniques and the broad application of this artificial material, metamaterial technology offers promising planar voltage-controlled oscillator (VCO) solutions for
microwave frequencies.
Email:
Address:2 River Drive , , Elmwood Park, United States, 07407
Agenda
This talk is hybrid; attendees can join remotely.