What are the challenges and potential solutions for scaling the control of transmon qubits to large-scale quantum computing systems, particularly in terms of power consumption and cooling requirements?
The endeavor to scale the control of transmon qubits to large-scale quantum computing systems presents a multitude of challenges, particularly in the domains of power consumption and cooling requirements. These challenges stem from the intricacies of quantum mechanics and the technological limitations of current hardware. Transmon qubits, which are a type of superconducting qubit, are
What role does pulse shaping play in the control of transmon qubits, and why are Gaussian and raised cosine pulses preferred over rectangular pulses?
Pulse shaping is a critical aspect of controlling transmon qubits, which are a type of superconducting qubit used in quantum computing. Effective pulse shaping is essential for minimizing errors and achieving high-fidelity quantum operations. In the context of transmon qubits, pulse shaping refers to the design of the temporal profile of the control pulses that