Physics World Weekly Podcast
New materials for quantum technology, how ultrasound can help detect breast cancer
Mar 6, 2025
Bhaskaran Muralidharan, a leading expert in computational nanoelectronics from IIT Bombay, discusses how his team is pioneering new quantum materials that could revolutionize technology. He's passionate about the transformative potential of quantum physics in various fields. Daniel Sarno, CTO of Sona at the UK’s National Physical Laboratory, reveals groundbreaking ultrasound techniques that improve breast cancer detection, especially for women with dense breast tissue. Their innovative approach promises safer and more effective screening solutions.
35:16
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Quick takeaways
- Computational physics is advancing quantum technology by creating innovative materials like magnesium oxide to enhance device performance and commercialization.
- A new ultrasound technique is being developed to improve breast cancer detection in women with dense breast tissue, providing a safer alternative to conventional mammography.
Deep dives
Advancements in Quantum Materials Through Computational Physics
Computational physics plays a crucial role in the development of next-generation quantum technologies, particularly through the creation of novel quantum materials. Engineers utilize computational models to design and predict the performance of quantum devices, such as superconducting qubits and spintronic materials. One notable example is magnesium oxide, which was theorized to enhance spintronic devices and is now nearing commercialization. The iterative process of feedback between theoretical predictions and experimental results is essential for refining these materials and advancing quantum hardware.
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