36,301 research outputs found
Longitudinal spin asymmetries in polarized deuteron DIS with spectator tagging
Polarized electron-deuteron DIS with spectator proton tagging offers a way of
measuring the neutron spin structure functions with maximal theoretical control
of nuclear effects. We calculate the nuclear structure factors in the
longitudinal double-spin asymmetries using methods of light-front nuclear
structure. A unique feature of the spin-1 system is that spin asymmetries can
be formed either relative to the cross section in all three spin states
() or in the two maximum-spin states only (,
involving tensor polarization). We find that the two-state deuteron spin
asymmetry at small spectator proton momenta permits accurate extraction of the
neutron structure function . Such measurements could be performed at a
future electron-ion collider (EIC) with polarized deuteron beams and suitable
forward detectors.Comment: 7 pages, 2 figures; Proceedings of 23rd International Spin Physics
Symposium (SPIN2018), 10-14 September, 2018; Ferrara, Ital
Crystal structures and growth mechanism for ultrathin films of ionic compound materials: FeO(111) on Pt(111)
The growth and atomic structures of epitaxial iron-oxide films on Pt(111) were studied with scanning tunneling microscopy and high-resolution low-energy electron diffraction. During the initial layer-by-layer growth of FeO(111) four different structures are formed as the coverage increases to 2.5 monolayers, then a three-dimensional growth of Fe3O4(111) islands begins. The structural transformations demonstrate that the relaxations within the FeO(111) films and the Stranski-Krastanov growth mode are induced by electrostatic surface energies, which dominate the energetics of thin film systems made up of ionic compound materials
Frequency Invariant Beamforming in Subbands
In this paper, two subband implementations of a frequency invariant beamformer (FIB) are studied. In the first structure, the received array signals are split into subbands and an FIB is operated in each of the corresponding decimated subbands, with a potential of achieving a lower computational complexity. As the spatio-temporal distributionof the subband signals is different from the original fullband signal, a modified design method of the FIB is proposed. Based on the subband implementation, we then change the sensor spacings of different subband signals so that lower frequency bands have a larger spacing, which results in a class of FIBs with scaled aperture with improved performance in lower frequencies. Several design examples are given to show the performance of our new structures
Off-broadside main beam design for frequency invariant beamformers
In a previously proposed design method for frequency invariant beamforming, the design for the case of an off-broadside main beam is not satisfactory. After a detailed analysis, we propose two methods to overcome this problem: one is to increase the length of the FIR filter attached to each sensor, as a result, we need to sample the transformed desired response more densely in the associated direction; the other one is to design a broadside main beam first, then it is convolved with appropriate steering delay filters. Design examples show that the two methods can provide satisfactory results
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