Optically Enhanced Magnetic Resonance
... spectroscopy, the excitation of transitions between nuclear spin states, was explored in the years after World War II, and is by now well characterized. Today’s interest in the field is based largely on the immense potential for applications: spins can serve as probes for their environment because t ...
... spectroscopy, the excitation of transitions between nuclear spin states, was explored in the years after World War II, and is by now well characterized. Today’s interest in the field is based largely on the immense potential for applications: spins can serve as probes for their environment because t ...
Shaped ultrafast laser pulses in the deep ultraviolet
... We begin with amplified femtosecond pulses from a standard Titanium:sapphire laser system, producing pulses at 785 nm with 30 fs duration and 1 mJ of energy at a repetition rate of 1 kHz. Approximately 700 microjoules of the light is down-collimated into a 250 micron thick BBO crystal cut for second ...
... We begin with amplified femtosecond pulses from a standard Titanium:sapphire laser system, producing pulses at 785 nm with 30 fs duration and 1 mJ of energy at a repetition rate of 1 kHz. Approximately 700 microjoules of the light is down-collimated into a 250 micron thick BBO crystal cut for second ...
Investigation of Rb D1 Atomic Lines in Strong Magnetic Fields by
... technique, the subDoppler spectral resolution can also be achieved using centimeterlong cells (when the parameters are properly chosen, it is possible to obtain peaks of reduced absorption with a width close to the natural width of ~6 MHz). In [9, 10], the SA tech nique was used to study spectra ...
... technique, the subDoppler spectral resolution can also be achieved using centimeterlong cells (when the parameters are properly chosen, it is possible to obtain peaks of reduced absorption with a width close to the natural width of ~6 MHz). In [9, 10], the SA tech nique was used to study spectra ...
Chapter 2 Atomic structure and spectra
... in which all φi are different spin orbitals. Such determinants are called Slater determinants and represent suitable N -electron wave functions which automatically fulfill the Pauli principle for fermions. Indeed, exchanging two columns in a determinant, i. e., permuting the coordinates of two electro ...
... in which all φi are different spin orbitals. Such determinants are called Slater determinants and represent suitable N -electron wave functions which automatically fulfill the Pauli principle for fermions. Indeed, exchanging two columns in a determinant, i. e., permuting the coordinates of two electro ...
Temporal Coherence of Photons Emitted by Single Nitrogen
... Coherent control of single quantum systems and the generation of nonclassical states has attracted widespread attention because of their application in quantum physics and quantum information science. Solid state systems are often considered to be promising and also difficult because of inhomogeneit ...
... Coherent control of single quantum systems and the generation of nonclassical states has attracted widespread attention because of their application in quantum physics and quantum information science. Solid state systems are often considered to be promising and also difficult because of inhomogeneit ...
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... Absorption or emission spectroscopies are referred to as linear spectroscopy, because they involve a weak light-matter interaction with one primary incident radiation field, and are typically presented through a single frequency axis. The ambiguities that arise when interpreting linear spectroscopy ...
... Absorption or emission spectroscopies are referred to as linear spectroscopy, because they involve a weak light-matter interaction with one primary incident radiation field, and are typically presented through a single frequency axis. The ambiguities that arise when interpreting linear spectroscopy ...