Creation of Ultracold RbCs Ground
... deeply bound molecules in well controlled internal and external quantum states. In order to achieve stability against radiative decay and inelastic two-body collisions, it is desirable to create the molecules in the lowest energy ground state of each degree of freedom. Few years after the creation o ...
... deeply bound molecules in well controlled internal and external quantum states. In order to achieve stability against radiative decay and inelastic two-body collisions, it is desirable to create the molecules in the lowest energy ground state of each degree of freedom. Few years after the creation o ...
International Journal of Mass Spectrometry Triacetone triperoxide
... the PTR-MS with a regular reduced-field in the drift tube will not produce the characteristic ions [TATP + H]+ for the explosive TATP. However, a low reduced-field around 50 Td in the drift tube of PTRMS can lead to the formation of the characteristic ions [TATP + H]+ , indicating that PTR-MS running ...
... the PTR-MS with a regular reduced-field in the drift tube will not produce the characteristic ions [TATP + H]+ for the explosive TATP. However, a low reduced-field around 50 Td in the drift tube of PTRMS can lead to the formation of the characteristic ions [TATP + H]+ , indicating that PTR-MS running ...
PPT - Institute of Physics, Bhubaneswar
... Increasing the length doesn‘t help due to strong absorption in the medium Electromagnetically Induced Transparency (EIT) provides a larger 3rd order non-linearity without absorption. ...
... Increasing the length doesn‘t help due to strong absorption in the medium Electromagnetically Induced Transparency (EIT) provides a larger 3rd order non-linearity without absorption. ...
Optical frequency combs: From frequency metrology to - JILA-PFC
... optical communications [18], and modern length and frequency metrology [19]. Eventually, next-generation optical clocks are expected to be superior to existing microwave standards and may become future national standards of time and frequency. However, the use of optical frequency standards for the ...
... optical communications [18], and modern length and frequency metrology [19]. Eventually, next-generation optical clocks are expected to be superior to existing microwave standards and may become future national standards of time and frequency. However, the use of optical frequency standards for the ...
"Positron-impact ionization, positronium formation, and electronic excitation cross sections for diatomic molecules" Phys. Rev. A 72 (2005), 062713. J. P. Marler and C.M. Surko (PDF)
... studied. The main source of error in the data is statistical. The apertures on the scattering cell are sufficiently small so that there is a well defined interaction region where the gas pressure and the electric potential are constant, and therefore the interaction path length can be accurately det ...
... studied. The main source of error in the data is statistical. The apertures on the scattering cell are sufficiently small so that there is a well defined interaction region where the gas pressure and the electric potential are constant, and therefore the interaction path length can be accurately det ...
Synthesis and Characterization of Dendrimer Templated Supported
... of bimetallic Pt-Au NPs was also identified.13,21,23,24 Bimetallic Pt-Au NPs within the miscibility gap can also be prepared in zeolites by using the zeolite supercages to arrest particle agglomeration and trap bimetallic NPs.25 Inorganic and organometallic cluster compounds have also been used to s ...
... of bimetallic Pt-Au NPs was also identified.13,21,23,24 Bimetallic Pt-Au NPs within the miscibility gap can also be prepared in zeolites by using the zeolite supercages to arrest particle agglomeration and trap bimetallic NPs.25 Inorganic and organometallic cluster compounds have also been used to s ...
Full text - Simon Fraser University
... effect in honeycomb materials at higher temperatures was made [2]. Graphene, one of today’s most interesting two-dimensional materials, has a zero overlap semi-metal band structure, which makes it a metallic conductor. To achieve semiconducting graphene, band gap engineering for graphene is required ...
... effect in honeycomb materials at higher temperatures was made [2]. Graphene, one of today’s most interesting two-dimensional materials, has a zero overlap semi-metal band structure, which makes it a metallic conductor. To achieve semiconducting graphene, band gap engineering for graphene is required ...
Two-Color Two-Photon Excitation Using Femtosecond Laser Pulses
... microscopy. Additionally, due to the quadratic dependence on the intensity, excitation in 2pm is limited to the focal area only. Thus, out-of-focus excitation is avoided leading to limited photo damage and an intrinsic 3D resolution. Most common excitation sources for 2pm are Ti:sapphire (Ti:Sa) las ...
... microscopy. Additionally, due to the quadratic dependence on the intensity, excitation in 2pm is limited to the focal area only. Thus, out-of-focus excitation is avoided leading to limited photo damage and an intrinsic 3D resolution. Most common excitation sources for 2pm are Ti:sapphire (Ti:Sa) las ...
super-resolved fluorescence microscopy
... microscopy has instead come in the form of far-field excitation techniques of two main types, as will be described in the next section. 3. Discovery of super-resolved fluorescence microscopy To date there are two far-field principles that lead to fluorescence-based microscopy with a resolution far b ...
... microscopy has instead come in the form of far-field excitation techniques of two main types, as will be described in the next section. 3. Discovery of super-resolved fluorescence microscopy To date there are two far-field principles that lead to fluorescence-based microscopy with a resolution far b ...