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focuses on developing a cutting-edge hybrid quantum computing platform that integrates entangled superconducting qubits with single electron-on-neon (eNe) qubits. Key Responsibilities: Design and fabricate
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superconducting qubits and millikelvin electronics Did you recently get your PhD in circuit quantum electrodynamics (cQED) and are now looking into taking the full potential of your skills into use for making new
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-capacitive devices and magnetoelastic sensors, that can be integrated into implants to monitor mechanical forces, strain, and physiological changes in real time. These “smart implants” are designed not only
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Qualifications: Experience with synthetic biology approaches and circuit design. Background in immunology, particularly T cell biology or CAR-T cell engineering. Experience with in vivo mouse models, especially
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trials based on experimental design. Contribute to the numerical modeling of beneficiation circuits (e.g., using USIMPAC or similar software). Analyze, interpret, and report the outcomes of simulations and
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superconducting qubits and millikelvin electronics Did you recently get your PhD in circuit quantum electrodynamics (cQED) and are now looking into taking the full potential of your skills into use for making new
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on developing TFLN and TFLT photonic integrated circuit (PIC) platforms for classical and quantum information processing. Our approach involves cavity-based components with electrically controllable cavity
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candidate will: ● Conduct independent research in electrical engineering with applications in robust and efficient AI systems; design and develop circuits, methodologies, research experiments aligned with
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for deep access within the human body. The research remit will encompass: mechanical and electronic circuit design, prototyping, and pre-clinical evaluation of diagnostic and therapeutic devices to tackle