Controllable Optical Phase Shift Over One Radian from a Single
... atomic scattering with a laser tuned between the Zeeman-split transition components. The photonic states produced by atoms at remote nodes can then be used for long-distance QPSK cryptography by entanglement swapping, according to standard quantum repeater protocols [12]. Conditional phase shifting ...
... atomic scattering with a laser tuned between the Zeeman-split transition components. The photonic states produced by atoms at remote nodes can then be used for long-distance QPSK cryptography by entanglement swapping, according to standard quantum repeater protocols [12]. Conditional phase shifting ...
EMPS - Module - SOE3203 Electromagnetics and Wave
... (a) describe: the physical origins of electric and magnetic fields, the relationships between charge, current and fields in terms of Gauss's law, Ampere's law and Faraday's law, field relationships in dielectric and magnetic materials and the relationship with capacitance and inductance, the mathema ...
... (a) describe: the physical origins of electric and magnetic fields, the relationships between charge, current and fields in terms of Gauss's law, Ampere's law and Faraday's law, field relationships in dielectric and magnetic materials and the relationship with capacitance and inductance, the mathema ...
Optical Diffraction and Image Formation
... range, fields are generated and detected by continuous charge fluctuations in antennas. The number of photons in radio fields is generally so large that particle-like phenomena and counting statistics are not relevant. In the frequency ranges of microwave, infrared or optical waves, radiating fields ...
... range, fields are generated and detected by continuous charge fluctuations in antennas. The number of photons in radio fields is generally so large that particle-like phenomena and counting statistics are not relevant. In the frequency ranges of microwave, infrared or optical waves, radiating fields ...
Towards microwave modulation in a wavelength-tuned magneto-optical trap
... continuously shifts the internal cavity around some value, allowing it to support more modes. The temperature effects dominate. We modulate around the original frequency, so it remains, but the process creates newer frequencies on the side (Sidebands) with a power dependent on how much modulation po ...
... continuously shifts the internal cavity around some value, allowing it to support more modes. The temperature effects dominate. We modulate around the original frequency, so it remains, but the process creates newer frequencies on the side (Sidebands) with a power dependent on how much modulation po ...
Polarization and Polarization Control
... cost and optical loss while still maintaining the versatility of the Soleil–Babinet. The Berek’s polarization compensator, pictured in Fig. 6, consists of a single plate cut with the extraordinary axis perpendicular to the plate. When light is at normal incidence to the plate, it propagates with a v ...
... cost and optical loss while still maintaining the versatility of the Soleil–Babinet. The Berek’s polarization compensator, pictured in Fig. 6, consists of a single plate cut with the extraordinary axis perpendicular to the plate. When light is at normal incidence to the plate, it propagates with a v ...
Vol. 26. Is. 5 - Society for Experimental Mechanics
... The entire event is immersed in a medium that has a refractive index n0. The first wave leaves the starting line, and arrives at point A at time t1. The second wave leaves the start line at the same instant the first wave left. But, this wave is required to pass through a slab of refractive material ...
... The entire event is immersed in a medium that has a refractive index n0. The first wave leaves the starting line, and arrives at point A at time t1. The second wave leaves the start line at the same instant the first wave left. But, this wave is required to pass through a slab of refractive material ...
Controlling the flow of electromagnetic waves
... added to facilitate perhaps our quest for the holy grail of all-photon telecommunications. The creation of a spectral em gap requires the strong periodic spatial modulation of the dielectric function, E, and/or the magnetic permeability, Il. This can be achieved by constructing composite materials c ...
... added to facilitate perhaps our quest for the holy grail of all-photon telecommunications. The creation of a spectral em gap requires the strong periodic spatial modulation of the dielectric function, E, and/or the magnetic permeability, Il. This can be achieved by constructing composite materials c ...
Quantum Physics
... is that voltage Vo that just stops the emission of electrons, and thus equals their original K.E. ...
... is that voltage Vo that just stops the emission of electrons, and thus equals their original K.E. ...
Prof. Lan Yang - Microlasers for Nanoscale
... for ultra-sensitive self-referencing detection and sizing of single virion, dielectric and metallic nanoparticles. I will also discuss using optical gains in a microlaser to improve the detection limit beyond the reach of a passive microresonator. These recent advancements in WGM microresonators wil ...
... for ultra-sensitive self-referencing detection and sizing of single virion, dielectric and metallic nanoparticles. I will also discuss using optical gains in a microlaser to improve the detection limit beyond the reach of a passive microresonator. These recent advancements in WGM microresonators wil ...
Chemistry 201/211 - Department of Chemistry | Oregon State
... low temperature and high pressure low temperature and low pressure high temperature and high pressure high temperature and low pressure ...
... low temperature and high pressure low temperature and low pressure high temperature and high pressure high temperature and low pressure ...
Everything you always wanted to know about cascaded - KIT
... The properties of optical amplifiers and attenuators will be reviewed briefly [1-4]. Two-mode parametric amplifiers are signal-phase-insensitive (PI) if one input amplitude is nonzero, in which case the input (signal) is amplified. They are phase-sensitive (PS) if both inputs are nonzero, in which c ...
... The properties of optical amplifiers and attenuators will be reviewed briefly [1-4]. Two-mode parametric amplifiers are signal-phase-insensitive (PI) if one input amplitude is nonzero, in which case the input (signal) is amplified. They are phase-sensitive (PS) if both inputs are nonzero, in which c ...
Active Control of Rogue Waves for Stimulated Supercontinuum
... called soliton-fission mechanism, a process that occurs when intense pump pulses are launched into a nonlinear optical fiber at its zero-dispersion wavelength [11]. In this situation, the input light fissions into multiple solitons— nonlinear wave packets that propagate without spreading due to a ba ...
... called soliton-fission mechanism, a process that occurs when intense pump pulses are launched into a nonlinear optical fiber at its zero-dispersion wavelength [11]. In this situation, the input light fissions into multiple solitons— nonlinear wave packets that propagate without spreading due to a ba ...
1.9 W yellow, CW, high-brightness light from a high efficiency
... to attract a lot of attention in recent years. Indeed, higher signal-to-noise ratios can be achieved for some important fluorophores when excited with light at 562 nm compared to the more commonly available green lasers at 532 nm6. Significant effort has been going into developing high power lasers ...
... to attract a lot of attention in recent years. Indeed, higher signal-to-noise ratios can be achieved for some important fluorophores when excited with light at 562 nm compared to the more commonly available green lasers at 532 nm6. Significant effort has been going into developing high power lasers ...
MICROWAVE OPTICS – THE MEASUREMENTS OF THE
... (what corresponds to the frequencies of 109-1011Hz). These waves are used in radars and other communication systems, as well as in the analyses of very fine details of atomic and molecular structure, and are also generated by electronic devices. As everybody knows interference is one of the phenomen ...
... (what corresponds to the frequencies of 109-1011Hz). These waves are used in radars and other communication systems, as well as in the analyses of very fine details of atomic and molecular structure, and are also generated by electronic devices. As everybody knows interference is one of the phenomen ...