100,112 research outputs found
Phase modulating with odd and even finite power series of a modulating signal
Method and apparatus is presented for producing a phase-modulated waveform having a high degree of linearity between the modulating signal and the phase of the modulated carrier signal. Two signals representing finite odd and even power series transformations of the modulating signal are produced and multiplied with two quadrature components of the input carrier signal, respectively. One of the multiplied signals is subtracted from the other and the resulting signal is hard-limited to produce a phase-modulated output signal. The means for producing the two signals representing the odd and even power series of the modulating signal includes means for varying the coefficients of the two power series. By means of an existing computer program, the coefficients of the two power series are selected such that there is an extremely high degree of linearity between the modulating signal and the phase of the modulated carrier signal
Wide deviation phase modulator
Modulator produces phase-modulated waveform having high modulating linearity. Technique is inherently wideband with respect to carrier frequency and can operate over decade carrier frequency range without adjustments. Circuit performance is both mathematically predictable and highly reproducible
The use of x-ray scattering to study the anomalous elastic properties of fe-ni alloys
X-ray scattering technique for study of elastic properties of nickel-iron allo
Determination of aerodynamic damping coefficients from wind-tunnel free-flight trajectories of non-axisymmetric bodies
Aerodynamic damping coefficient from wind tunnel free flight trajectories of nonaxisymmetrical bodie
Making Voting Easier: Election Day Registration in New York
As policymakers, election officials, and the public consider whether New York should change the way in which voters are allowed to register to participate in elections, and bring New York State election law into compliance with the Help America Vote Act, the following report provides an analysis of the potential impact of election day registration (EDR) in New York. EDR in New York has the potential to increase voter participation for New Yorkers by as much as: Over 12 percentage point increase in turnout by 18-to-25-year-olds. Nearly 10 percentage point increase in turnout by thosewith a grade school education or less.An 11 point increase in turnout by Latinos and nearly 9 percentage point increase in turnout by African Americans.Over 10 percentage point increase in turnout by those who have lived at their current address for less than six months.Over 12 percentage point increase in turnout by naturalized citizens
Ammonia in the hot core W51-IRS2: 12 new maser lines and a maser component with a velocity drift
With the 100-m telescope at Effelsberg, 19 ammonia (NH3) maser lines have
been detected toward the prominent massive star forming region W51-IRS2. Eleven
of these inversion lines, the (J,K) = (6,2), (5,3), (7,4), (8,5), (7,6), (7,7),
(9,7), (10,7), (9,9), (10,9), and (12,12) transitions, are classified as masers
for the first time in outer space. All detected masers are related to highly
excited inversion doublets. The (5,4) maser originates from an inversion
doublet 340 K above the ground state, while the (12,12) transition, at 1450 K,
is the most highly excited NH3 maser line so far known. Strong variability is
seen not only in ortho- but also in para-NH3 transitions. Bright narrow
emission features are observed, for the first time, in (mostly) ortho-ammonia
transitions, at V ~ 45 km/s, well separated from the quasi-thermal emission
near 60 km/s. These features were absent 25 years ago and show a velocity drift
of about +0.2 km/s/yr. The component is likely related to the SiO maser source
in W51-IRS2 and a possible scenario explaining the velocity drift is outlined.
The 57 km/s component of the (9,6) maser line is found to be strongly linearly
polarized. Maser emission in the (J,K) to (J+1,K) inversion doublets is
strictly forbidden by selection rules for electric dipole transitions in the
ground vibrational state. However, such pairs (and even triplets with (J+2,K))
are common toward W51-IRS2. Similarities in line widths and velocities indicate
that such groups of maser lines arise from the same regions, which can be
explained by pumping through vibrational excitation. The large number of NH3
maser lines in W51-IRS2 is most likely related to the exceptionally high
kinetic temperature and NH3 column density of this young massive star forming
region.Comment: Accepted for publication in Astronomy & Astrophysics, 11 pages, 12
postscript figures, 1 tabl
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