Laser Cooling and Trapping of Neutral Calcium Atoms
... tributions to the calcium experiment and were excellent company during their time in Glasgow. Much of the apparatus used in the experiment was made from original components created by the Photonics workshop. Many thanks to Bob, Ewan, Paul and Lisa for all of their help and hard work, and for some r ...
... tributions to the calcium experiment and were excellent company during their time in Glasgow. Much of the apparatus used in the experiment was made from original components created by the Photonics workshop. Many thanks to Bob, Ewan, Paul and Lisa for all of their help and hard work, and for some r ...
electrostatics (08)
... Concept + Equation Resolving power of a Microscope: Concept + Equation Resolution of Telescope Concept + Equation The Fresnel distance(Distiction between wave Concept + Equation and ray Optics) ...
... Concept + Equation Resolving power of a Microscope: Concept + Equation Resolution of Telescope Concept + Equation The Fresnel distance(Distiction between wave Concept + Equation and ray Optics) ...
¯ t Analysis with Taus in the Final State
... 3.20 Tau rejection factor on tt̄ events (before any correction to ATLFAST is applied), normalized to cone 0.4 truth jets, for ATLFAST (triangles) and full simulation (squares) as a function of pT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.21 Tau identification efficiency on tt̄ ev ...
... 3.20 Tau rejection factor on tt̄ events (before any correction to ATLFAST is applied), normalized to cone 0.4 truth jets, for ATLFAST (triangles) and full simulation (squares) as a function of pT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.21 Tau identification efficiency on tt̄ ev ...
26CK-12 Physical Science for Middle School
... different states. These differences in particle motion explain why solids, liquids, and gases look and act differently. Think about how ice and water differ, or how water vapor differs from liquid water. The kinetic theory of matter explains the differences. Scientific laws are often confused with s ...
... different states. These differences in particle motion explain why solids, liquids, and gases look and act differently. Think about how ice and water differ, or how water vapor differs from liquid water. The kinetic theory of matter explains the differences. Scientific laws are often confused with s ...
[PDF]
... we discovered a startling discrepancy between two standard methods of measuring T2 using the NMR spin echo.1 The first method is the Hahn echo !HE", where a single ! pulse is used to partially refocus magnetization,37 HE : 90X − # − 180Y − # − echo. The pulses are represented as their intended rotat ...
... we discovered a startling discrepancy between two standard methods of measuring T2 using the NMR spin echo.1 The first method is the Hahn echo !HE", where a single ! pulse is used to partially refocus magnetization,37 HE : 90X − # − 180Y − # − echo. The pulses are represented as their intended rotat ...
Wave Propagation through Vegetation at 3.1 GHz and 5.8 GHz
... A model for vegetation attenuation, based on the total cross section for leaves and branches, has been developed. The model is valid for microwave propagation in general but the analysis has been made with the emphasize on the frequencies 3.1 GHz and 5.8 GHz with application to Fixed Wireless Access ...
... A model for vegetation attenuation, based on the total cross section for leaves and branches, has been developed. The model is valid for microwave propagation in general but the analysis has been made with the emphasize on the frequencies 3.1 GHz and 5.8 GHz with application to Fixed Wireless Access ...
Measuring Everything You`ve Ever Wanted to Know About an
... very robust and fast, usually converging in < 0.1 second,[2] unless the pulse is very complex. Indeed, FROG has become an effective and versatile way to measure ultrashort laser pulses, whether a 20 fs UV pulse or an oddly shaped IR pulse from a free-electron laser.[2] And FROG now routinely measure ...
... very robust and fast, usually converging in < 0.1 second,[2] unless the pulse is very complex. Indeed, FROG has become an effective and versatile way to measure ultrashort laser pulses, whether a 20 fs UV pulse or an oddly shaped IR pulse from a free-electron laser.[2] And FROG now routinely measure ...
Introduction: A Road Well-Traveled
... said, But, behold, they will not believe me, nor hearken unto my voice: for they will say, The LORD hath not appeared unto thee. 2 And the LORD said unto him, What is that in thine hand? And he said, A rod. 3 And he said, Cast it on the ground. And he cast it on the ground, and it became a serpent; ...
... said, But, behold, they will not believe me, nor hearken unto my voice: for they will say, The LORD hath not appeared unto thee. 2 And the LORD said unto him, What is that in thine hand? And he said, A rod. 3 And he said, Cast it on the ground. And he cast it on the ground, and it became a serpent; ...
Simulation of the formation of antihydrogen in a nested Penning trap:
... merging positrons and antiprotons in a nested Penning trap [13]. Here the applied magnetic field was in the Tesla range, and typical electric fields in the trap were in the region of tens of V cm−1 . In the case of ATHENA, the trap electrodes were held at a temperature of around 15 K (to which the p ...
... merging positrons and antiprotons in a nested Penning trap [13]. Here the applied magnetic field was in the Tesla range, and typical electric fields in the trap were in the region of tens of V cm−1 . In the case of ATHENA, the trap electrodes were held at a temperature of around 15 K (to which the p ...
Preprint
... BEC. Since then, the developments have exceeded even our most optimistic expectations. Almost every month, new topics related to BEC emerge making BEC more than just a phenomenon of statistical physics: it is a new window into the quantum world. This excitement was felt throughout the “Enrico Fermi” ...
... BEC. Since then, the developments have exceeded even our most optimistic expectations. Almost every month, new topics related to BEC emerge making BEC more than just a phenomenon of statistical physics: it is a new window into the quantum world. This excitement was felt throughout the “Enrico Fermi” ...
Quantum Operator Design for Lattice Baryon Spectroscopy
... thanks goes to my advisor Colin Morningstar who had the confidence to put me on such an important project, and who had the patience to let me learn from my mistakes. I am also grateful to Keisuke (Jimmy) Juge, Matthew Bellis, David Richards, Robert Edwards, and George Fleming who took the time to an ...
... thanks goes to my advisor Colin Morningstar who had the confidence to put me on such an important project, and who had the patience to let me learn from my mistakes. I am also grateful to Keisuke (Jimmy) Juge, Matthew Bellis, David Richards, Robert Edwards, and George Fleming who took the time to an ...
Tunneling from a correlated two-dimensional electron system transverse to a... * T. Sharpee and M. I. Dykman P. M. Platzman
... number of electrons兲. The effect of the magnetic field on tunneling is then compensated. For p f ⬃1 only partial compensation occurs. One can say that tunneling is accompanied by creation of phonons of the WC, and the associated energy goes towards the magnetic barrier. However, the barrier turn ...
... number of electrons兲. The effect of the magnetic field on tunneling is then compensated. For p f ⬃1 only partial compensation occurs. One can say that tunneling is accompanied by creation of phonons of the WC, and the associated energy goes towards the magnetic barrier. However, the barrier turn ...
Lecture Notes 18: Relativistic Electrodynamics
... / Newtonian mechanics} is already consistent with special relativity – i.e. is valid in any IRF. However: What one observer interprets (e.g.) as a purely electrical process in his/her IRF, another observer in a different IRF may interpret it (e.g.) as being due to purely magnetic phenomena, or a “mi ...
... / Newtonian mechanics} is already consistent with special relativity – i.e. is valid in any IRF. However: What one observer interprets (e.g.) as a purely electrical process in his/her IRF, another observer in a different IRF may interpret it (e.g.) as being due to purely magnetic phenomena, or a “mi ...
The construction of Triga-Trap and direct high
... entire chart of nuclides, since the mass is directly linked to the binding energy via Einstein’s famous relation E = mc2 . Nuclear binding energies in turn reflect the sum of all nucleonic interactions leading to nuclear structure in all its variations. Most of the information has to be searched amo ...
... entire chart of nuclides, since the mass is directly linked to the binding energy via Einstein’s famous relation E = mc2 . Nuclear binding energies in turn reflect the sum of all nucleonic interactions leading to nuclear structure in all its variations. Most of the information has to be searched amo ...
Time in physics
Time in physics is defined by its measurement: time is what a clock reads. In classical, non-relativistic physics it is a scalar quantity and, like length, mass, and charge, is usually described as a fundamental quantity. Time can be combined mathematically with other physical quantities to derive other concepts such as motion, kinetic energy and time-dependent fields. Timekeeping is a complex of technological and scientific issues, and part of the foundation of recordkeeping.