
Laser Cooling of Atoms, Ions, or Molecules by Coherent Scattering
... Doppler cooling by cavity-induced frequency-dependent scattering. The resonator enhances scattering into modes with higher frequency than the incident light, which according to Eq. (2) produces asymmetric sidebands bh6 at frequencies vL 6 2v in the light E0 that leaks out of the cavity (Fig. 1). The ...
... Doppler cooling by cavity-induced frequency-dependent scattering. The resonator enhances scattering into modes with higher frequency than the incident light, which according to Eq. (2) produces asymmetric sidebands bh6 at frequencies vL 6 2v in the light E0 that leaks out of the cavity (Fig. 1). The ...
Rubidium 85 D Line Data
... recommended values, as listed in [2]. Some of the overall physical properties of 85 Rb are given in Table 2. Rubidium 85 has electrons, only one of which is in the outermost shell. 85 Rb is the only stable isotope of rubidium (although 87 Rb is only very weakly unstable, and is thus effectively stab ...
... recommended values, as listed in [2]. Some of the overall physical properties of 85 Rb are given in Table 2. Rubidium 85 has electrons, only one of which is in the outermost shell. 85 Rb is the only stable isotope of rubidium (although 87 Rb is only very weakly unstable, and is thus effectively stab ...
1 CHAPTER 7 ATOMIC SPECTRA 7.1 Introduction Atomic
... expressed in angstrom units (Å) after the nineteenth century Swedish spectroscopist Anders Ångström, one Å being 10−10 m. Today, it is recommended to use nanometres (nm) for visible light or micrometres (µm) for infrared. 1 nm = 10 Å = 10−3 µm= 10−9 m. The older word micron is synonymous with microm ...
... expressed in angstrom units (Å) after the nineteenth century Swedish spectroscopist Anders Ångström, one Å being 10−10 m. Today, it is recommended to use nanometres (nm) for visible light or micrometres (µm) for infrared. 1 nm = 10 Å = 10−3 µm= 10−9 m. The older word micron is synonymous with microm ...
Physics 243 Lecture Notes
... P38.1 The human eye is most sensitive to green light of wavelength 505 nm. When people are kept in the dark room until their eyes adapt to the darkness, a single photon of green light will trigger receptor cells in the rods of the retina. (a) What is the frequency of this photon? (b) How much energy ...
... P38.1 The human eye is most sensitive to green light of wavelength 505 nm. When people are kept in the dark room until their eyes adapt to the darkness, a single photon of green light will trigger receptor cells in the rods of the retina. (a) What is the frequency of this photon? (b) How much energy ...
ןב תטיסרבינוא - בגנב ןוירוג
... “enough” precision, to control its interaction with other qubits, and to do so during a time interval “much shorter” than the decoherence time. 1.5 Qubit-specific measurement capability. Theoretically, we should be able to measure the state of each qubit independently of any other parameters of the ...
... “enough” precision, to control its interaction with other qubits, and to do so during a time interval “much shorter” than the decoherence time. 1.5 Qubit-specific measurement capability. Theoretically, we should be able to measure the state of each qubit independently of any other parameters of the ...
Analysis of a single-atom dipole trap
... this FORT have a very low photon scattering rate and therefore negligible photon recoil heating. Confinement times up to 4 s are achieved with no additional cooling. Because of the small trap volume, only a single atom can be loaded at a time 关21兴. To prove this property the photon statistics of the ...
... this FORT have a very low photon scattering rate and therefore negligible photon recoil heating. Confinement times up to 4 s are achieved with no additional cooling. Because of the small trap volume, only a single atom can be loaded at a time 关21兴. To prove this property the photon statistics of the ...
Hong-Ou-Mandel interference between triggered and heralded
... It provides a fundamental primitive for the coherent interfacing of separate quantum systems via their emitted photons [3] as an alternative to their direct interaction [4, 5]. It is the basis of quantum teleportation [6–8] and entanglement swapping [9, 10]. Initially developed as a sensitive tool f ...
... It provides a fundamental primitive for the coherent interfacing of separate quantum systems via their emitted photons [3] as an alternative to their direct interaction [4, 5]. It is the basis of quantum teleportation [6–8] and entanglement swapping [9, 10]. Initially developed as a sensitive tool f ...
Course Map_2011-2012 - Kenwood Academy High School
... 12.11.38 Know that atoms are made of sub-atomic particles (protons, neutrons, electrons) which have positive, neutral, or negative charges. Understand that the periodic table displays the elements in increasing atomic number and shows how periodicity of the physical and chemical properties of the el ...
... 12.11.38 Know that atoms are made of sub-atomic particles (protons, neutrons, electrons) which have positive, neutral, or negative charges. Understand that the periodic table displays the elements in increasing atomic number and shows how periodicity of the physical and chemical properties of the el ...
Lab 1
... Above, when adding we look for the least number of accurate places to the right. So above, all of the numbers are 3 places to the right, so our answer, 53.552, must have 3 places to the right; which makes it a 5 sig fig number. ...
... Above, when adding we look for the least number of accurate places to the right. So above, all of the numbers are 3 places to the right, so our answer, 53.552, must have 3 places to the right; which makes it a 5 sig fig number. ...
CHAPTER 5 The Bohr Model of the Atom
... Another important characteristic of waves is called frequency. The frequency of a wave is the number of cycles that pass a given point per unit of time. If we choose an exact position along the path of the wave and count how many crests pass the position per unit time, we would get a value for frequ ...
... Another important characteristic of waves is called frequency. The frequency of a wave is the number of cycles that pass a given point per unit of time. If we choose an exact position along the path of the wave and count how many crests pass the position per unit time, we would get a value for frequ ...
Chemistry Unit Outcomes
... List the names of the first persons to recognize that it would be convenient to represent chemical substances using symbols? 2. Outline what John Dalton, an English chemist, did in 1808. 3. Explain how Dalton represented element and why there was a problem with Dalton’s system. 4. Define the term ch ...
... List the names of the first persons to recognize that it would be convenient to represent chemical substances using symbols? 2. Outline what John Dalton, an English chemist, did in 1808. 3. Explain how Dalton represented element and why there was a problem with Dalton’s system. 4. Define the term ch ...
physical setting chemistry
... 37 Which general trends in first ionization energy and electronegativity values are demonstrated by Group 15 elements as they are considered in order from top to bottom? (1) The first ionization energy decreases and the electronegativity decreases. (2) The first ionization energy increases and the ...
... 37 Which general trends in first ionization energy and electronegativity values are demonstrated by Group 15 elements as they are considered in order from top to bottom? (1) The first ionization energy decreases and the electronegativity decreases. (2) The first ionization energy increases and the ...