Space solitons in gas mixtures

“…Let us now show that the same result can be obtained by the use of equation (11). The square of E in the standing wave in the resonator in the region where the sensor is absent in accordance with equation ( 1) is (4E 2 0 /n 1 ) sin 2 (kn 1 z).…”

“…The square of E in the standing wave in the resonator in the region where the sensor is absent in accordance with equation ( 1) is (4E 2 0 /n 1 ) sin 2 (kn 1 z). In accordance with equation (11), the optical force per unit area at point z 1 is equal to…”

“…Comparing equations ( 17) and (11), one can see that the Maxwell force in ES is double the force in the field of a light wave, provided that the amplitude of the alternate strength of the electrical field is equal to the strength of a static electrical field. Comparing the electrostriction pressure given by equation ( 15) and the electrostriction pressure given by equation ( 18) one can see the same picture.…”

“…This is important for optomechanics, as it could provide a means of engineering novel Brillouin scattering processes in nanoscale waveguide systems [9,10]. Finally, this is also important for an explanation of the ball lightning (BL) phenomenon, where BL is considered as a bubble whose shell, unlike a soap bubble, consists of strongly compressed air where an intense conventional white light is circulating in all possible directions [11]. The light compresses the air in the shell due to the optical electrostriction pressure.…”

Interrelation between striction forces in dielectrics and optically induced forces in transparent media

“…Let us now show that the same result can be obtained by the use of equation (11). The square of E in the standing wave in the resonator in the region where the sensor is absent in accordance with equation ( 1) is (4E 2 0 /n 1 ) sin 2 (kn 1 z).…”

“…The square of E in the standing wave in the resonator in the region where the sensor is absent in accordance with equation ( 1) is (4E 2 0 /n 1 ) sin 2 (kn 1 z). In accordance with equation (11), the optical force per unit area at point z 1 is equal to…”

“…Comparing equations ( 17) and (11), one can see that the Maxwell force in ES is double the force in the field of a light wave, provided that the amplitude of the alternate strength of the electrical field is equal to the strength of a static electrical field. Comparing the electrostriction pressure given by equation ( 15) and the electrostriction pressure given by equation ( 18) one can see the same picture.…”

“…This is important for optomechanics, as it could provide a means of engineering novel Brillouin scattering processes in nanoscale waveguide systems [9,10]. Finally, this is also important for an explanation of the ball lightning (BL) phenomenon, where BL is considered as a bubble whose shell, unlike a soap bubble, consists of strongly compressed air where an intense conventional white light is circulating in all possible directions [11]. The light compresses the air in the shell due to the optical electrostriction pressure.…”

Interrelation between striction forces in dielectrics and optically induced forces in transparent media

“…It turns out that the refractive index in the LB shell can be increased not only by increasing the air pressure but also by drowning in the LB shell various gases whose refractive index is greater than that of the air. In this case an increase in the refractive index can be obtained at relatively small pressures in the LB shell [10]. The favorable influence of erosive gas discharge on the appearance of autonomous glowing objects produced in a laboratory has also been explained [5].…”

Interrelation between ball lightning and optically induced forces

Nonlinear properties of gaseous optical mediums in a context of ball lightning explanation