1,335 research outputs found
Third-degree heart block in thalassemia major: A case report
Background: First and second-degree heart blocks are partly common rhythm disorders in thalassemic patients but complete heart block is a very rare complication of iron overload cardiomyopathy. Case Presentation: This 15-year-old boy, a known case of major β-thalassemia was admitted to our emergency unit with dyspnea and cough because of decompensated heart failure. The electrocardiogram showed complete heart block with junctional escape rhythm. Interestingly, his previous electrocardiogram taken 2 months earlier, had some PVC and second degree, Mobitz type 1 (Wenckebach) heart block. After improvement of dyspnea and control of blood pressure in normal range, the patient was referred to ER. A dual-chamber permanent pacemaker was implanted and his symptoms improved, but he died 24 days after discharge from hospital. Conclusion: We present a rare case of complete heart block after a second-degree (Mobitz 1) heart block that was due to severe iron overload cardiomyopathy. © 2012 by Pediatrics Center of Excellence, Children's Medical Center, Tehran University of Medical Sciences
Optical Lattice Trap for Kerr Solitons
We show theoretically and numerically that dichromatic pumping of a nonlinear
microresonator by two continuous wave coherent optical pumps creates an optical
lattice trap that results in the localization of intra-cavity Kerr solitons
with soliton positions defined by the beat frequency of the pumps. This
phenomenon corresponds to the stabilization of the Kerr frequency comb
repetition rate. The locking of the second pump, through adiabatic tuning of
its frequency, to the comb generated by the first pump allows transitioning to
single-soliton states, manipulating the position of Kerr solitons in the
cavity, and tuning the frequency comb repetition rate within the locking range.
It also explains soliton crystal formation in resonators supporting a
dispersive wave emitted as a result of higher-order group velocity dispersion
or avoided mode crossing. We show that dichromatic pumping by externally
stabilized pumps can be utilized for stabilization of microresonator-based
optical frequency combs when the comb span does not cover an octave or a
significant fraction thereof and standard self-referencing techniques cannot be
employed. Our findings have significant ramifications for high-precision
applications of optical frequency combs in spectrally pure signal generation,
metrology, and timekeeping.Comment: 13 pages, 12 figure
Passively mode locked Raman laser
We report on the observation of a novel mode locked optical comb generated at
the Raman offset (Raman comb) in an optically pumped crystalline whispering
gallery mode resonator. Mode locking is confirmed via measurement of the
radio-frequency beat note produced by the optical comb on a fast photodiode.
Neither the conventional Kerr comb nor hyper-parametric oscillation is observed
when the Raman comb is present
A study of the influence of Hg(6(3)P2) population in a low-pressure discharge on mercury ion emission at 194.2 nm
A low-pressure mercury-argon discharge, similar to the type existing in the mercury lamp for the trapped-ion standard, is probed with a new technique of laser spectroscopy to determine the influence of the Hg(6 3P(sub 2)) population on discharge emission. The discharge is excited with inductively coupled rf power. Variations in the intensity of emission lines in the discharge were examined as lambda = 546.1 nm light from a continuous wave (CW) laser excited the Hg(6 3P(sub 2)) to (7 3S (sub 1)) transition. The spectrum of the discharge viewed in the region of laser irradiation showed increased emission in lambda = 546.1, 435.8, 404.7, 253.7, and 194.2 nm lines. Other lines in Hg I exhibited a decrease in emission. When the discharge was viewed outside the region of laser irradiation, all lines exhibited an increased emission. Based on these results, it is concluded that the dominant mechanism for the excitation of higher lying levels of mercury is the the electron-impact excitation via the 3P(sub 2) level. The depopulation of this metastable is also responsible for the observed increase in the electron temperature when the laser irradiates the discharge. It is also concluded that the 3P(sub 2) metastable level of mercury does not play a significant role in the excitation of the 3P(sub 1/2) level of mercury ion
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