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Cornell researchers have built a programmable optical chip that can change the color of light by merging photons, without requiring a new chip for new colors – technology that could potentially be used for classical and quantum communications networks.
Researchers devised a new method to image intact bacterial cells and large organelle up to 500-800 nanometers thick – a roughly fivefold improvement over current methods.
Cornell Engineering honored the transformative impact of its faculty at the 2025 Fall Faculty Reception, recognizing this year’s Teaching and Advising Award winners for their outstanding commitment to student success.
Featuring Mala Murthy and H. Sebastian Seung Mala Murthy: Circuit Mechanisms For Dynamic Social Interactions Mala Murthy is the Karol and Marnie Marcin ’96 Professor of Neuroscience and Director of the Princeton Neuroscience Institute at Princeton University. Murthy is internationally…
From mapping the human gut-brain connection to creating safer cancer nanotherapies, the latest Expanded SPROUT Awards from Cornell Engineering are exploring breakthroughs in microbiome science, quantum materials and biomedical engineering.
Cornell researchers have demonstrated that, by zapping a thin film with ultrafast pulses of low-frequency infrared light, they can cause its lattice to atomically expand and contract billions of times per second, potentially switching its electronic, magnetic or optical properties on and off.
