News and events of Roozbeh Tabrizian's Research Group

Primary tabs

IMG Member Receiving Best Paper Award at Hilton Head 2022 Workshop

IMG PhD student, Faysal Hakim, received the Best Paper Award (runner up) at Hilton Head Solid-State Sensors, Actuators and Microsystems Workshop (Hilton Head 2022).

The award-winning paper is titled “X-Band Ferroelectric-on-Si Fin Bulk Acoustic Resonators with f.Q of 0.8*1013.”

Congratulations to Faysal Hakim on receiving this prestigious award, and for representing IMG well.

Dicheng Mo competes as a finalist in the Student Best Paper competition at IEEE IFCS 2022

Dicheng Mo, IMG PhD student and a member of Tabrizian group, is selected as a finalist for the 'Student Best Paper' competition at the 2022 IEEE International Frequency Control Symposium (IFCS), to be held in Paris this month. Dicheng, along with his co-authors Shaurya Dabas and Sushant Rassay, is demonstrating the first intrinsically configurable bulk acoustic wave resonator and filter with dual-frequency operation at 7 and 14 GHz. Congratulations to Dicheng and the co-authors, and best wishes for the competition.

IMG Members Presenting 5 Papers at the IEEE IFCS 2022 Conference!

IMG will be represented this month at the IEEE IFCS 2022.

A 7 GHz – 13.4 GHz Complementary-Switchable Thickness-Extensional Bulk Acoustic Resonator Using Laminated Ferroelectric Sc0.28Al0.72N
Dicheng Mo, Shaurya Dabas, Sushant Rassay, Roozbeh Tabrizian

Intrinsically Tunable Laminated Ferroelectric Sc0.28Al0.72N Extensional Resonator Based on Local Polarization Switching
Shaurya Dabas, Dicheng Mo, Sushant Rassay, Roozbeh Tabrizian

IMG Journal Article Selected as Cover for Advanced Engineering Materials December Issue

The recent article titled, "Resolving Mechanical Properties and Morphology Evolution of Free-Standing Ferroelectric Hf0.5Zr0.5O2" targets the accurate extraction of Young's modulus, built-in stress, and crystal morphology change upon release of hafnia-zirconia thin films. Hafnia-zirconia is uniquely positioned to revolutionize nanoscale transducers, allowing for nanomechanical sensors and actuators to be monolithically integrated within CMOS.