Decoherence of electron waves due to induced charges moving through a nearby resistive material

Abstract: An experiment in which decoherence, i.e. the transition from quantum to classical behaviour, can be studied in detail was proposed by Anglin and Zurek [1] and has now been realized. An electron beam in a biprism interferometer is split into two parts both of which travel over a plate made of a highly resistive material at the same, small height. The induced charges inside the plate move along with the beam electron, therefore a current results which encounters ohmic resistance. This process leads to a disturba… Show more

“…In the proposed experimental setup, 27,28 nonrelativistic electrons with energies in the range of 150 eV to 3 keV are emitted by an electron gun. This corresponds to velocities v ∼ 7 · 10 6 to 3 · 10 7 m/s (i.e., roughly one order of magnitude higher than the Fermi velocities for metals 33 ).…”

Theory ofwhich pathdephasing in single electron interference due to trace in conductive environment

“…In the proposed experimental setup, 27,28 nonrelativistic electrons with energies in the range of 150 eV to 3 keV are emitted by an electron gun. This corresponds to velocities v ∼ 7 · 10 6 to 3 · 10 7 m/s (i.e., roughly one order of magnitude higher than the Fermi velocities for metals 33 ).…”

Theory ofwhich pathdephasing in single electron interference due to trace in conductive environment

“…Recently, the double-slit interference experiment with electrons [7,8], has been enhanced by using a plate of conductor material with very high resistivity [9,10] (Figure 1). By changing the distance δ of the conductor from the path of the electrons it is possible to decide which way the electron went by exploiting the Joule effect due to the motion of the mirror charge.…”

The quantum-to-classical transition: contraction of associative products

“…The reason is that the moving charge in the qubit creates a moving charge in the gate which indispensably entails a resistivity loss. A direct observation of decoherence due to image charges was presented in the interference experiment with electrons flying over the metal surface [6]. A similar effect with regard to qubits was firstly emphasized in Ref.…”

Effect of image charge on double quantum dot evolution