NEW DELHI: Making significant strides in the field of quantum technology, researchers from Nagaland University have replicated the complex patterns of fractals found in nature -- such as snowflakes, tree branches, and neuron networks -- in the quantum world.
With India already committed to advancing next-generation technologies through the National Quantum Mission, the new research could contribute meaningfully to the development of future quantum devices and algorithms, said the team
Fractals are not just mathematical curiosities, but blueprints found across nature -- from the branching of rivers and lightning strikes to the growth of plants and neurons.
By bringing these naturally occurring patterns into the quantum realm, the research bridges the gap between fundamental physics and practical technology, demonstrating how lessons from nature can inspire the next generation of computing and electronics.
The findings will help researchers explore how amorphous non-crystalline materials can be engineered for quantum technologies, thereby expanding the material base for India’s and the world’s quantum innovation efforts.
“Fractals are naturally occurring patterns that repeat themselves at different scales, seen in structures like coastlines, leaves, and blood vessels. In this research, I have used quantum mechanics to simulate how electrons behave under a magnetic field within such fractal systems. This approach is unique because most research in quantum devices relies on crystalline materials,” said Dr. Biplab Pal, Assistant Professor, Department of Physics, School of Sciences, Nagaland University.
“This work shows that non-crystalline, amorphous materials can also be effectively used to design nanoelectronic quantum devices,” he added.
The researchers noted that the study opens exciting possibilities in quantum devices: designing molecular fractal-based nanoelectronic devices. (IANS)
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