They are developing a new concept built on quantum spherical codes that could make the notoriously fragile information in a photon-based quantum computer less susceptible to errors.
They are developing a new concept built on quantum spherical codes that could make the notoriously fragile information in a photon-based quantum computer less susceptible to errors.
Their invention involves a new method for counting particles of light—photons—without destroying them.
A noted expert on quantum secure cryptography, he offers insight as to why new quantum-resistant security measures are needed now, and what we may see in the future.
Nicole Yunger Halpern was recognized for her innovative contributions to quantum thermodynamics in the presence of non-Abelian charges, and her creative use of symmetries that has paved the way to experimental exploration.
They are developing a new concept built on quantum spherical codes that could make the notoriously fragile information in a photon-based quantum computer less susceptible to errors.
Their invention involves a new method for counting particles of light—photons—without destroying them.
A noted expert on quantum secure cryptography, he offers insight as to why new quantum-resistant security measures are needed now, and what we may see in the future.
Nicole Yunger Halpern was recognized for her innovative contributions to quantum thermodynamics in the presence of non-Abelian charges, and her creative use of symmetries that has paved the way to experimental exploration.
