Laser-Assisted Dynamics on Metallic Surfaces using
... real-time electron dynamics on metallic surfaces. These studies are performed in pumpprobe geometries, where a pump pulse excites a dynamic process and a time-delayed probe monitors changes in the system. Furthermore, recent progress in ultrafast lasers and high-harmonic generation has opened up a n ...
... real-time electron dynamics on metallic surfaces. These studies are performed in pumpprobe geometries, where a pump pulse excites a dynamic process and a time-delayed probe monitors changes in the system. Furthermore, recent progress in ultrafast lasers and high-harmonic generation has opened up a n ...
POLARIZATION AT THE EXTREME LIMB OF THE SUN AND THE
... unpolarizable (W2 = 0 at the center of the line). In contrast, the observations reveal a small but significant polarization peak centered around the D1 resonance. Another mechanism that has considerable influence on the intrinsic line polarizability is polarization transfer by optical pumping, as su ...
... unpolarizable (W2 = 0 at the center of the line). In contrast, the observations reveal a small but significant polarization peak centered around the D1 resonance. Another mechanism that has considerable influence on the intrinsic line polarizability is polarization transfer by optical pumping, as su ...
Role of dispersion in pulse emission from a sliding
... shifter removes low-intensity noise and continuous-wave radiation from the filter bandpass and hence from the cavity. But a soliton survives in the cavity because it remains stably trapped by the filter at a given frequency. The dynamics of the noise-induced start-up of frequency-shifted feedback fi ...
... shifter removes low-intensity noise and continuous-wave radiation from the filter bandpass and hence from the cavity. But a soliton survives in the cavity because it remains stably trapped by the filter at a given frequency. The dynamics of the noise-induced start-up of frequency-shifted feedback fi ...
Basic Concepts - Department of Chemistry
... The equilibrium constant is 49 for the following reaction at 450oC. If 1.00 mole of HI is put into an evacuated 1.00-liter container and allowed to reach equilibrium, what will be the equilibrium concentration of each substance? ...
... The equilibrium constant is 49 for the following reaction at 450oC. If 1.00 mole of HI is put into an evacuated 1.00-liter container and allowed to reach equilibrium, what will be the equilibrium concentration of each substance? ...
Basic Concepts
... The equilibrium constant is 49 for the following reaction at 450oC. If 1.00 mole of HI is put into an evacuated 1.00-liter container and allowed to reach equilibrium, what will be the equilibrium concentration of each substance? ...
... The equilibrium constant is 49 for the following reaction at 450oC. If 1.00 mole of HI is put into an evacuated 1.00-liter container and allowed to reach equilibrium, what will be the equilibrium concentration of each substance? ...
Green's function formulation for third-harmonic generation microscopy
... Third-harmonic generation from an interface perpendicular to the optical axis was illustrated by Barad et al.7 With the Green’s function model we are able to investigate THG from interfaces of different orientations. Figure 4 shows that THG signals can arise from an interface perpendicular or parall ...
... Third-harmonic generation from an interface perpendicular to the optical axis was illustrated by Barad et al.7 With the Green’s function model we are able to investigate THG from interfaces of different orientations. Figure 4 shows that THG signals can arise from an interface perpendicular or parall ...
Experimental Realization of Two Decoupled Directional Couplers in a
... oscillates between waveguide 2 and 3 with virtually no leakage to the outer waveguides (1 and 4). In contrast, when light is injected into the outer waveguide (1), the far-field shows it exits the system only from waveguide 1. The NSOM measurement confirms the propagating light is localized in wavegui ...
... oscillates between waveguide 2 and 3 with virtually no leakage to the outer waveguides (1 and 4). In contrast, when light is injected into the outer waveguide (1), the far-field shows it exits the system only from waveguide 1. The NSOM measurement confirms the propagating light is localized in wavegui ...
On the influence of wind and waves on underwater
... in water is subject of this study. The work is based on a two-dimensional Monte Carlo radiative transfer model with high spatial resolution. The model assumes conditions that are ideal for wave focusing, thus simulation results reveal the upper limit for light fluctuations. Local wind primarily dete ...
... in water is subject of this study. The work is based on a two-dimensional Monte Carlo radiative transfer model with high spatial resolution. The model assumes conditions that are ideal for wave focusing, thus simulation results reveal the upper limit for light fluctuations. Local wind primarily dete ...
Name - Chemistry 302
... in electrochemistry are often acidic or basic. The protons (H+) and hydroxides (OH-) contribute the balancing of chemical species and charge in our half reactions. We will still follow a method of half-reactions, with just a bit more balancing. Let’s first consider acidic solutions: ClO3¯ (aq) + I2 ...
... in electrochemistry are often acidic or basic. The protons (H+) and hydroxides (OH-) contribute the balancing of chemical species and charge in our half reactions. We will still follow a method of half-reactions, with just a bit more balancing. Let’s first consider acidic solutions: ClO3¯ (aq) + I2 ...
chemical kinetics
... Some reactions such as ionic reactions occur very fast, for example, precipitation of silver chloride occurs instantaneously by mixing of aqueous solutions of silver nitrate and sodium chloride. On the other hand, some reactions are very slow, for example, rusting of iron in the presence of air and ...
... Some reactions such as ionic reactions occur very fast, for example, precipitation of silver chloride occurs instantaneously by mixing of aqueous solutions of silver nitrate and sodium chloride. On the other hand, some reactions are very slow, for example, rusting of iron in the presence of air and ...
File - Roden`s AP Chemistry
... (b) If this NH4Cl solution is assumed to be ideal and is can dissolve. completely dissociated into ions, calculate the The diverse (“uncommon”) ion effect – “the salt efpressure of this solution at 29.0C. fect”. As the total ionic concentration of a solution increases, interionic attractions become ...
... (b) If this NH4Cl solution is assumed to be ideal and is can dissolve. completely dissociated into ions, calculate the The diverse (“uncommon”) ion effect – “the salt efpressure of this solution at 29.0C. fect”. As the total ionic concentration of a solution increases, interionic attractions become ...
lecture1423183006
... The complexity of a phase diagram is primarily determined by a number of components which occur in the system, where components are chemical species of fixed composition. Phase Diagram of One-component component System: It is a two dimensional representation of the dependence of the equilibrium stat ...
... The complexity of a phase diagram is primarily determined by a number of components which occur in the system, where components are chemical species of fixed composition. Phase Diagram of One-component component System: It is a two dimensional representation of the dependence of the equilibrium stat ...
Synthesis and Nuclear Magnetic Resonance Spectra of ISN
... downfield of 5.7M l5NH4Clin 0.1 M HC1) as are the 2J~sN-~~Nthe signals corresponding to these two types of nitrogen are values (8.5vs. 7 Hz), but considerably better resolution was observed at 225.1 and 39.3ppm, respectively. Thus, in both possible on more dilute solutions with use of FT methods. th ...
... downfield of 5.7M l5NH4Clin 0.1 M HC1) as are the 2J~sN-~~Nthe signals corresponding to these two types of nitrogen are values (8.5vs. 7 Hz), but considerably better resolution was observed at 225.1 and 39.3ppm, respectively. Thus, in both possible on more dilute solutions with use of FT methods. th ...
Ultraviolet–visible spectroscopy
Ultraviolet–visible spectroscopy or ultraviolet-visible spectrophotometry (UV-Vis or UV/Vis) refers to absorption spectroscopy or reflectance spectroscopy in the ultraviolet-visible spectral region. This means it uses light in the visible and adjacent (near-UV and near-infrared [NIR]) ranges. The absorption or reflectance in the visible range directly affects the perceived color of the chemicals involved. In this region of the electromagnetic spectrum, molecules undergo electronic transitions. This technique is complementary to fluorescence spectroscopy, in that fluorescence deals with transitions from the excited state to the ground state, while absorption measures transitions from the ground state to the excited state.