Measurement Back-Action in Quantum Point-Contact Charge
... to be measured in a single shot, and averaging over many cycles is required. Alternatively, one can place a quantum point-contact (QPC), a narrow, ballistic constriction, close to the QD: since the conductance of such a device is very sensitive to changes in the electrostatic potential, different ch ...
... to be measured in a single shot, and averaging over many cycles is required. Alternatively, one can place a quantum point-contact (QPC), a narrow, ballistic constriction, close to the QD: since the conductance of such a device is very sensitive to changes in the electrostatic potential, different ch ...
by Dr. Matti Pitkänen
... leading to a model of Genetic Code emerges as exceptional learning hierarchy in this model. It must be however admitted that the question "Why DNA and proteins are needed?" is not yet really understood. If the association sequences associated with the individuals of species are quantum entangled, mo ...
... leading to a model of Genetic Code emerges as exceptional learning hierarchy in this model. It must be however admitted that the question "Why DNA and proteins are needed?" is not yet really understood. If the association sequences associated with the individuals of species are quantum entangled, mo ...
Tensor Networks, Quantum Error Correction, and
... The Ryu-Takayanagi formula shows us a deep connection between entanglement and geometry. We can describe entanglement with tensor networks, and recent work suggests that we can coax hyperbolic geometry out of them in some instances. The hope is that certain networks may serve as discrete models of A ...
... The Ryu-Takayanagi formula shows us a deep connection between entanglement and geometry. We can describe entanglement with tensor networks, and recent work suggests that we can coax hyperbolic geometry out of them in some instances. The hope is that certain networks may serve as discrete models of A ...
Observation of even denominator fractional quantum Hall effect in
... -4/3 state having the largest energy gap; see Figure 4c). This behavior differs from what is found in other 2DESs, including monolayer graphene, where only odd-denominator states have been observed with the strongest state at |ν |= 1/3.6, 7, 26, 27, 46 It is also clearly distinct from that of double ...
... -4/3 state having the largest energy gap; see Figure 4c). This behavior differs from what is found in other 2DESs, including monolayer graphene, where only odd-denominator states have been observed with the strongest state at |ν |= 1/3.6, 7, 26, 27, 46 It is also clearly distinct from that of double ...
