We are proud to collaborate with Dr. Tahereh Parvini, an internationally recognized physicist whose work successfully bridges the gap between theoretical quantum mechanics and applied quantum architectures. She currently conducts critical research at the Walther-Meißner-Institut within the Bayerische Akademie der Wissenschaften and serves as an executive board member of the Munich Center for Quantum Science and Technology (MCQST). She is also a driving force within the Horizon Europe SuperMEQ consortium.
Dr. Parvini’s expertise is instrumental in advancing next-generation quantum technologies. Her primary focus centers on hybrid quantum systems, specifically flux-mediated superconducting quantum circuits, SQUID-terminated microwave resonators, and nanostring-based cavity-optomechanical platforms. Her breakthroughs in engineered dissipation, quantum memories, and spin-photon hybridization provide foundational strength to the development of robust, scalable quantum ecosystems.
Developed nonlinear device concepts for energy-efficient neuromorphic computing, utilizing hybrid opto-electrical platforms, magnetic tunnel junctions, and wideband THz spintronic emitters. Her innovations pushed boundaries in high-frequency emission and super-resolution imaging configurations.
Having established and co-led a dedicated quantum biology laboratory, Dr. Salari has spearheaded pioneering studies on biophoton imaging, photonic chip technologies, and the manifestation of quantum effects in complex systems. His experimental and theoretical breakthroughs drive the development of next-generation, non-invasive sensing platforms.
Completed her Ph.D. in Condensed Matter Physics, specializing in defect-mode engineering, aperiodic structures, and magneto-optical light-matter interactions for advanced second-harmonic generation.
Dr. Parvini's unparalleled expertise in quantum transduction, sensing, and entangled states actively accelerates our capabilities to deliver industry-transforming quantum solutions.