Aalborg Universitet A 3-10 GHz IR
... the generated UWB pulse signal at a PRR of 250 MHz. It can be seen that the PSD has a -10 dB bandwidth (BW) of 6.75 GHz (3.75-10.5 GHz) with a maximum magnitude of -40 dBm/MHz, which fulfills FCC’s UWB mask. An added benefit of the pulse generator is that as the PRR increases, the time slot T0 avail ...
... the generated UWB pulse signal at a PRR of 250 MHz. It can be seen that the PSD has a -10 dB bandwidth (BW) of 6.75 GHz (3.75-10.5 GHz) with a maximum magnitude of -40 dBm/MHz, which fulfills FCC’s UWB mask. An added benefit of the pulse generator is that as the PRR increases, the time slot T0 avail ...
Note: Self-characterizing ultrafast pulse shaper for rapid pulse switching
... ranges of useful repetition rates are very different. AOMs utilize a traveling acoustic wave, which must leave the interaction region before the next optical pulse arrives. Since this wave travels at acoustic velocities, it requires many microseconds of time between laser pulses. So although an AOMb ...
... ranges of useful repetition rates are very different. AOMs utilize a traveling acoustic wave, which must leave the interaction region before the next optical pulse arrives. Since this wave travels at acoustic velocities, it requires many microseconds of time between laser pulses. So although an AOMb ...
Instructions for Use
... provides the correct pressure; additional pressure may cause inaccurate readings. 1. Insert the patient’s finger, nail side up, into the Onyx® II until the fingertip touches the built-in stop guide. 2. Make sure the finger is lying flat (not on its side) and is centered within the device. For best r ...
... provides the correct pressure; additional pressure may cause inaccurate readings. 1. Insert the patient’s finger, nail side up, into the Onyx® II until the fingertip touches the built-in stop guide. 2. Make sure the finger is lying flat (not on its side) and is centered within the device. For best r ...
NMR_basics - Louisiana Tech University
... In an NMR experiment, many spins are present. As the energy difference between the states and is small compared to kT (k Boltzmann constant, T temperature), there is, at room temperature, only a small excess of spins in the energetically lower state, even for the highest available magnetic field ...
... In an NMR experiment, many spins are present. As the energy difference between the states and is small compared to kT (k Boltzmann constant, T temperature), there is, at room temperature, only a small excess of spins in the energetically lower state, even for the highest available magnetic field ...
