The following pages link to Quantum communications (Q2350208):
Displaying 19 items.
- Quantum communication protocols as a benchmark for programmable quantum computers (Q669874) (← links)
- Microstructural inelastic fingerprints and data-rich predictions of plasticity and damage in solids (Q785491) (← links)
- Enhanced power on small scales and evolution of quantum state of perturbations in single and two field inflationary models (Q2675178) (← links)
- A quantum vocal theory of sound (Q2681662) (← links)
- Fock expansion of multimode pure Gaussian states (Q3463249) (← links)
- Interaction in Quantum Communication (Q3548810) (← links)
- Quantum Communication Scheme Using Non-symmetric Quantum Channel (Q4577555) (← links)
- On the role of Hermite-like polynomials in the Fock representations of Gaussian states (Q4958110) (← links)
- Communication Over Quantum Channels With Parameter Estimation (Q5030293) (← links)
- TWO-WAY QUANTUM COMMUNICATION CHANNELS (Q5291269) (← links)
- A receiver for quadrature/polarization modulated quantum coherent states in photonic communications employing the Naimark extension (Q6072531) (← links)
- Fourier Behind Entanglement: A Spectral Approach to the Quantum Internet (Q6091947) (← links)
- Detection of polarization shift-keyed/switched/multiplexed quantum coherent states in M-ary photonic communication systems (Q6093078) (← links)
- Detection of polarization multiplexing by quantum squeezed states in communication systems (Q6142133) (← links)
- Optimizing state-discrimination receivers for continuous-variable quantum key distribution over a wiretap channel (Q6559757) (← links)
- Quantum dense coding with gravitational cat states (Q6579581) (← links)
- Riemannian optimization of photonic quantum circuits in phase and Fock space (Q6613159) (← links)
- Effects of chromatic dispersion on single-photon temporal wave functions in quantum communications (Q6629292) (← links)
- A robust hybrid receiver for binary phase-shift keying discrimination in the presence of phase noise (Q6634633) (← links)
