Photon Sidebands of the Ground State and First Excited State of a
... excitons in a single quantum dot [3]. We have used microwaves with relatively low frequency to study the discrete electron excitation spectrum in the conduction band of a single quantum dot. In contrast to the light transmission or luminescence measurements of the above spectroscopy techniques, we m ...
... excitons in a single quantum dot [3]. We have used microwaves with relatively low frequency to study the discrete electron excitation spectrum in the conduction band of a single quantum dot. In contrast to the light transmission or luminescence measurements of the above spectroscopy techniques, we m ...
quantum cryptography - 123SeminarsOnly.com
... So far this conforms to the accepted Newtonian universe model; but it was found that if the light was instead used to repeatedly emit just a single photon (a quantum of light) over a period of time, exactly the same interference pattern was formed on the screen. This was a startling result, and com ...
... So far this conforms to the accepted Newtonian universe model; but it was found that if the light was instead used to repeatedly emit just a single photon (a quantum of light) over a period of time, exactly the same interference pattern was formed on the screen. This was a startling result, and com ...
Electrostically defined few-electron double quantum dot in silicon
... the Si/SiO2 interface trap density(Dit ). Deep-level transient spectroscopy of similarly-processed structures revealed Dit of order 5×1010 cm−2 eV−1 near the conduction band edge [18]. Figures 1(a,b) show a scanning electron microscope (SEM) image and a schematic cross-section of a double dot device ...
... the Si/SiO2 interface trap density(Dit ). Deep-level transient spectroscopy of similarly-processed structures revealed Dit of order 5×1010 cm−2 eV−1 near the conduction band edge [18]. Figures 1(a,b) show a scanning electron microscope (SEM) image and a schematic cross-section of a double dot device ...
