Introduction to Spectroscopy
... (scattered) at the original frequency (Rayleigh scattering) or at a different frequency (Raman, Brillouin, fluorescence, etc.) or be degraded to heat or initiate a photochemical event or … ...
... (scattered) at the original frequency (Rayleigh scattering) or at a different frequency (Raman, Brillouin, fluorescence, etc.) or be degraded to heat or initiate a photochemical event or … ...
![L 35 Modern Physics [1]](http://s1.studyres.com/store/data/008517000_1-9aef89c0ca089782f518550164188024-300x300.png)
SCIENTIST
... location of an electron Energy of electron at a given time determines its location Opposite of Bohr Model ...
... location of an electron Energy of electron at a given time determines its location Opposite of Bohr Model ...
Creating laser light
... Light emission involves a complicated set of physical processes. Even a single type of laser like a HeNe can radiate light at several wavelengths. ...
... Light emission involves a complicated set of physical processes. Even a single type of laser like a HeNe can radiate light at several wavelengths. ...
Atomic Spectra
... nm, 434.17 nm, and 410.29 nm. What is the wavelength of the next line of the series? What is the shortest wavelength line in this series? ...
... nm, 434.17 nm, and 410.29 nm. What is the wavelength of the next line of the series? What is the shortest wavelength line in this series? ...
Lecture 33 - Stimulated Absorption
... 3. Transition probability for spontaneous emission. Now we can begin to make some approximate (or semiclassical) connections between our model of the classical electron oscillator and the quantum picture. a. ...
... 3. Transition probability for spontaneous emission. Now we can begin to make some approximate (or semiclassical) connections between our model of the classical electron oscillator and the quantum picture. a. ...
BEC 2 - JILA
... Temperatures down to 10-100 nanoK Each atom behaves as a bar magnet This process is similar to what happens with your cup of coffee. The hottest molecules escape from the cup as vapor In a magnetic field atoms can be trapped: ...
... Temperatures down to 10-100 nanoK Each atom behaves as a bar magnet This process is similar to what happens with your cup of coffee. The hottest molecules escape from the cup as vapor In a magnetic field atoms can be trapped: ...
4/10/2006 Chapter 37 Lasers, a Model Atom and Zero Point Energy
... onto a solid theoretical foundation with the development of the Schrodinger Wave Equation. This equation can be used to calculate the energy values for electrons in hydrogen (and other atoms). This field of physics dealing with “Wave Mechanics” came to be called Quantum Mechanics. The next few chapt ...
... onto a solid theoretical foundation with the development of the Schrodinger Wave Equation. This equation can be used to calculate the energy values for electrons in hydrogen (and other atoms). This field of physics dealing with “Wave Mechanics” came to be called Quantum Mechanics. The next few chapt ...
Knight_ch41
... 1. the Schrödinger principle. 2. the Pauli exclusion principle. 3. Stern’s law. 4. the Heisenberg uncertainty principle. 5. Fermi’s rule. ...
... 1. the Schrödinger principle. 2. the Pauli exclusion principle. 3. Stern’s law. 4. the Heisenberg uncertainty principle. 5. Fermi’s rule. ...
