Quantum information science and technology high school outreach: Conceptual progression for introducing principles and programming skills

National data have shown the need to expand and diversify the talent pool of the quantum technologies workforce. This article describes a newly designed 25-h summer quantum information science and technology (QIST) program for high school students in grades 10–12; the goal is to advance physical science literacy and diversify the STEM pipeline through novel quantum science and quantum computing access and learning. This partnership between Stony Brook University and the New York Hall of Science was designed by quantum physicists and physics education researchers. This manuscript describes the rationale and progression of quantum ideas and computing skills introduced in the outreach program. The program design scaffolded physics, mathematics, and computer science concepts to engage high school students in the excitement of quantum information science and technology fields. The disciplinary content included the limitations of classical computing, classical and quantum physics principles (diffraction, polarization, wave-particle duality), the Mach–Zehnder interferometer, superposition, quantum thought experiments (Schrödinger's cat and Wigner's friend), entanglement and Bell's inequality, quantum key distribution, and basic quantum computing skills. Students also spent time visiting laboratories and museum exhibits and learning about academic progressions and career pathways in quantum technologies. This university-based science outreach model may be replicated by other quantum educators and adapted for learning in formal contexts.