Quantum nonlocality
... an internal difference” We all know that two electrons exhibit no internal differences. •In classical physics one can try to “individuate” absolutely identical objects by considering their locations in space and time. •This is not possible in quantum physics since in it trajectories are meaningless. ...
... an internal difference” We all know that two electrons exhibit no internal differences. •In classical physics one can try to “individuate” absolutely identical objects by considering their locations in space and time. •This is not possible in quantum physics since in it trajectories are meaningless. ...
NP-complete Problems and Physical Reality
... might lead to a more powerful model of computation; these include nonlinearities in the Schrödinger equation and certain assumptions about hidden variables. Section 6 moves on to consider analog computing, time dilation, and exotic spacetime geometries; this section is basically a plea to those who ...
... might lead to a more powerful model of computation; these include nonlinearities in the Schrödinger equation and certain assumptions about hidden variables. Section 6 moves on to consider analog computing, time dilation, and exotic spacetime geometries; this section is basically a plea to those who ...
Quantum Mechanical Laws
... and Gerlach 1914), the light beam was falling not onto a wide metallic surface but on a metallic powder dispersed in vacuum. According to the classical electrodynamics, the beam energy falling onto each grain of the powder per time unit could be determined by the Pointing vector integrated over the ...
... and Gerlach 1914), the light beam was falling not onto a wide metallic surface but on a metallic powder dispersed in vacuum. According to the classical electrodynamics, the beam energy falling onto each grain of the powder per time unit could be determined by the Pointing vector integrated over the ...
Quantum Mechanical Laws
... and Gerlach 1914), the light beam was falling not onto a wide metallic surface but on a metallic powder dispersed in vacuum. According to the classical electrodynamics, the beam energy falling onto each grain of the powder per time unit could be determined by the Pointing vector integrated over the ...
... and Gerlach 1914), the light beam was falling not onto a wide metallic surface but on a metallic powder dispersed in vacuum. According to the classical electrodynamics, the beam energy falling onto each grain of the powder per time unit could be determined by the Pointing vector integrated over the ...
Detected-jump-error-correcting quantum codes - IAP TU
... It can be shown that each pure state 兩 t;t n ␣ n , . . . ,t 1 ␣ 1 典 describes the quantum state of the N-qubit system at time t conditioned on the emission of precisely n photons at times t 1 ⭐•••⭐t n by qubits ␣ 1 , . . . , ␣ n 关14 –18兴. Thus, each of the pure quantum states of Eq. 共4兲 corresponds ...
... It can be shown that each pure state 兩 t;t n ␣ n , . . . ,t 1 ␣ 1 典 describes the quantum state of the N-qubit system at time t conditioned on the emission of precisely n photons at times t 1 ⭐•••⭐t n by qubits ␣ 1 , . . . , ␣ n 关14 –18兴. Thus, each of the pure quantum states of Eq. 共4兲 corresponds ...
AJS_Paper1_FreeWill - Department of Mathematics
... not a function of the past can only exist if some elementary particles also have free will in this sense. In order to prove this theorem, Conway and Kochen assumed three simple physical axioms which they called fin, spin, and twin. Fin states that there exists a maximum speed at which information ca ...
... not a function of the past can only exist if some elementary particles also have free will in this sense. In order to prove this theorem, Conway and Kochen assumed three simple physical axioms which they called fin, spin, and twin. Fin states that there exists a maximum speed at which information ca ...
Experimental Creation and Measurement of Motional Quantum
... jn = 0i state by a spatially uniform classical driving eld[18], by a \moving standing wave" [19], by pairs of standing waves [20], or by a non-adiabatic shift of the trap center[21]. We have used the rst two methods. For the classical drive, we apply a sinusoidally varying potential at the trap os ...
... jn = 0i state by a spatially uniform classical driving eld[18], by a \moving standing wave" [19], by pairs of standing waves [20], or by a non-adiabatic shift of the trap center[21]. We have used the rst two methods. For the classical drive, we apply a sinusoidally varying potential at the trap os ...
14. Applications of Free-Space Optical Communications
... from a study with satellite EO images [4]. A typical microwave X-Band LEO-toground (LEO-GND) downlink (DL) as on TerraSAR-X offers a data rate of 300 Mbps (Curve 1). This results in a downlink capacity of about 0.45 Tb to 2.25 Tb per day (1500 s-7500 s link duration per day in dependence of the lati ...
... from a study with satellite EO images [4]. A typical microwave X-Band LEO-toground (LEO-GND) downlink (DL) as on TerraSAR-X offers a data rate of 300 Mbps (Curve 1). This results in a downlink capacity of about 0.45 Tb to 2.25 Tb per day (1500 s-7500 s link duration per day in dependence of the lati ...