Time-resolved coherent anti-Stokes Raman scattering: imaging based on Raman free induction decay
... 3054 cm⫺1 , and therefore coherently exciting all the vibrational modes shown in the inset of Fig. 3共a兲. The measured RFID curve exhibits an initial fast decay of the IRF, followed by a single exponential decay with a time constant of about ⬃390 fs, which is superimposed with a quantum beat that rec ...
... 3054 cm⫺1 , and therefore coherently exciting all the vibrational modes shown in the inset of Fig. 3共a兲. The measured RFID curve exhibits an initial fast decay of the IRF, followed by a single exponential decay with a time constant of about ⬃390 fs, which is superimposed with a quantum beat that rec ...
291 SEPARATION TECHNIQUES FOR - Ars Separatoria
... radioactivity of the feed was as follows: 137Cs - 8.6 Bq/L, 60Co -15.2 Bq/L and for 85Sr - 6.2 Bq/L. Activity of the filtrates was 10- to 200-times lower. *) 137Cs removal As the sorbent of Cs+ ions the slurry of Cu-ferrocyanide was used. The slurry can be precipitated in situ from K4[Fe(CN6)]·6H2O ...
... radioactivity of the feed was as follows: 137Cs - 8.6 Bq/L, 60Co -15.2 Bq/L and for 85Sr - 6.2 Bq/L. Activity of the filtrates was 10- to 200-times lower. *) 137Cs removal As the sorbent of Cs+ ions the slurry of Cu-ferrocyanide was used. The slurry can be precipitated in situ from K4[Fe(CN6)]·6H2O ...
Assembly, Alignment, and Maintenance of an Automated Laser Cutter
... Given the high powers involved, careful alignment this invisible laser was required, in part to ensure that the beam is safely contained while traversing a sequence of three mirrors, some of which are mounted to movable armatures controlled by computerized stepping motors, before redirection into an ...
... Given the high powers involved, careful alignment this invisible laser was required, in part to ensure that the beam is safely contained while traversing a sequence of three mirrors, some of which are mounted to movable armatures controlled by computerized stepping motors, before redirection into an ...
111.70 + 48 = 159.70 g/mol
... CALCULATE THE MOLAR MASS OF CARBON DIOXIDE, CO2 The atomic mass of C = 12.01 The atomic mass of O = 16.00 The molar mass of CO2 = 12.01 g/mol + 2(16.00 g/mol) = 12.01+ 32 = 44.01 g/mol http://www.slideshare.net/robertgist/mole-calculations-aeg3 - GOOD REF. ...
... CALCULATE THE MOLAR MASS OF CARBON DIOXIDE, CO2 The atomic mass of C = 12.01 The atomic mass of O = 16.00 The molar mass of CO2 = 12.01 g/mol + 2(16.00 g/mol) = 12.01+ 32 = 44.01 g/mol http://www.slideshare.net/robertgist/mole-calculations-aeg3 - GOOD REF. ...
H. F. Ghaemi - Department of Physics | Oregon State
... We identify the transmission minima as the result of Wood’s anomaly,11 which was observed in diffraction gratings and occurs when a diffracted order becomes tangent to the plane of the grating. When the order disappears, the light intensity is redistributed among the remaining orders; it has been su ...
... We identify the transmission minima as the result of Wood’s anomaly,11 which was observed in diffraction gratings and occurs when a diffracted order becomes tangent to the plane of the grating. When the order disappears, the light intensity is redistributed among the remaining orders; it has been su ...
8 Elementary statistical thermodynamics
... 8.2.4 Electron and atomic nucleus The differences between energy levels of electron motion and nucleus motion are big enough to keep the electrons and nuclei stay at their ground states. Both degree of degeneracy, ge,0, for electron motion at ground state and degree of degeneracy, gn,0, for nucleus ...
... 8.2.4 Electron and atomic nucleus The differences between energy levels of electron motion and nucleus motion are big enough to keep the electrons and nuclei stay at their ground states. Both degree of degeneracy, ge,0, for electron motion at ground state and degree of degeneracy, gn,0, for nucleus ...
The EMF technique
... conductivity should be as pure as possible, that is, the transport number should be as close to unity as possible under applicable conditions, to avoid current leaks. ...
... conductivity should be as pure as possible, that is, the transport number should be as close to unity as possible under applicable conditions, to avoid current leaks. ...
Chapter 6
... Displacement Reaction): These are reactions where two reactants just exchange parts. ...
... Displacement Reaction): These are reactions where two reactants just exchange parts. ...
A2 Module 2814: Chains, Rings and Spectroscopy
... One set of ligands may be displaced by others that form stronger co-ordinate bonds, or which are present in very high concentration – this is called ligand substitution: When copper(II) sulfate solution is treated with dilute aqueous ammonia, the solution starts blue because of the Cu(H2O)62+ ion. I ...
... One set of ligands may be displaced by others that form stronger co-ordinate bonds, or which are present in very high concentration – this is called ligand substitution: When copper(II) sulfate solution is treated with dilute aqueous ammonia, the solution starts blue because of the Cu(H2O)62+ ion. I ...
8. Three-dimensional box. Ideal Fermi and Bose gases
... In the ideal-gas approximation we assume that there are no forces acting between the N identical spin- 21 fermions inside the box volume V = Lx Ly Lz . (Thus the only forces acting are those from the cofining walls.) Real gases are not ideal, and real fermion systems are not ideal Fermi gases. Howev ...
... In the ideal-gas approximation we assume that there are no forces acting between the N identical spin- 21 fermions inside the box volume V = Lx Ly Lz . (Thus the only forces acting are those from the cofining walls.) Real gases are not ideal, and real fermion systems are not ideal Fermi gases. Howev ...
2.8 M - Thierry Karsenti
... and spreadsheet software 2. Periodic Table of Elements: 3. Metre Stick: - ...
... and spreadsheet software 2. Periodic Table of Elements: 3. Metre Stick: - ...
SAMPLE ARTICLE FOR ACTA ELECTROTECHNICA ET
... Department of Physics, INPE FEI STU Bratislava, Slovakia, Ilkovičova 3, 812 19 Bratislava, Slovakia ...
... Department of Physics, INPE FEI STU Bratislava, Slovakia, Ilkovičova 3, 812 19 Bratislava, Slovakia ...
Stimulated Raman adiabatic passage as a route to achieving optical... Maxim Sukharev and Svetlana A. Malinovskaya
... transition frequency ω12 with T exhibiting a wide minimum. The appearance of the second resonance in the reflection spectrum is a clear indication of a strong collective interaction of atoms in the layer that leads to appearance of new EM modes with frequencies other than ω12 . A number of these mode ...
... transition frequency ω12 with T exhibiting a wide minimum. The appearance of the second resonance in the reflection spectrum is a clear indication of a strong collective interaction of atoms in the layer that leads to appearance of new EM modes with frequencies other than ω12 . A number of these mode ...
Part of a Molecular Compound
... the earth a million times and to the moon and back 25 times. You could sell the left over string back at a penny an inch ( a major loss) and take the remaining money and give everyone in the world about ...
... the earth a million times and to the moon and back 25 times. You could sell the left over string back at a penny an inch ( a major loss) and take the remaining money and give everyone in the world about ...
Molar Mass - Science With Horne
... The mole (abbreviated mol) is the base unit for measuring the amount of a substance. The definition of a mole comes from how many particles (atoms, in this case) there is in exactly 12 grams of Carbon-12. Through many years of experimentation, it has been confirmed that a mole of any substance has 6 ...
... The mole (abbreviated mol) is the base unit for measuring the amount of a substance. The definition of a mole comes from how many particles (atoms, in this case) there is in exactly 12 grams of Carbon-12. Through many years of experimentation, it has been confirmed that a mole of any substance has 6 ...
Rutherford backscattering spectrometry
Rutherford backscattering spectrometry (RBS) is an analytical technique used in materials science. Sometimes referred to as high-energy ion scattering (HEIS) spectrometry, RBS is used to determine the structure and composition of materials by measuring the backscattering of a beam of high energy ions (typically protons or alpha particles) impinging on a sample.