53 research outputs found
Signatures of the Self-Similar Regime of Strongly Coupled Stimulated Brillouin Scattering for Efficient Short Laser Pulse Amplification
Plasma-based laser amplification is considered as a possible way to overcome the technological limits of
present day laser systems and achieve exawatt laser pulses. Efficient amplification of a picosecond laser
pulse by stimulated Brillouin scattering (SBS) of a pump pulse in a plasma requires to reach the self-similar
regime of the strongly coupled (SC) SBS. In this Letter, we report on the first observation of the signatures
of the transition from linear to self-similar regimes of SC-SBS, so far only predicted by theory and
simulations. With a new fully head-on collision geometry, subpicosecond pulses are amplified by a factor
of 5 with energy transfers of few tens of mJ. We observe pulse shortening, frequency spectrum broadening,
and down-shifting for increasing gain, signatures of SC-SBS amplification entering the self-similar regime.
This is also confirmed by the power law dependence of the gain on the amplification length: doubling the
interaction length increases the gain by a factor 1.4. Pump backward Raman scattering (BRS) on SC-SBS
amplification has been measured for the first time, showing a strong decrease of the BRS amplitude and
frequency bandwidth when SBS seed amplification occurs
Dynamics of nanosecond laser pulse propagation and of associated instabilities in a magnetized underdense plasma
The propagation and energy coupling of intense laser beams in plasmas are
critical issues in laser-driven inertial confinement fusion. Applying magnetic
fields to such a setup has been evoked to enhance fuel confinement and heating,
and mitigate laser energy losses. Here we report on experimental measurements
demonstrating improved transmission and increased smoothing of a high-power
laser beam propagating in an underdense magnetized plasma. We also measure
enhanced backscattering, which our simulations show is due to hot electrons
confinement, thus leading to reduced target preheating
Thiamine Diphosphate in Whole Blood, Thiamine and Thiamine Monophosphate in Breast-Milk in a Refugee Population
BACKGROUND: The provision of high doses of thiamine may prevent thiamine deficiency in the post-partum period of displaced persons. METHODOLOGY/PRINCIPAL FINDINGS: The study aimed to evaluate a supplementation regimen of thiamine mononitrate (100 mg daily) at the antenatal clinics in Maela refugee camp. Women were enrolled during antenatal care and followed after delivery. Samples were collected at 12 weeks post partum. Thiamine diphosphate (TDP) in whole blood and thiamine in breast-milk of 636 lactating women were measured. Thiamine in breast-milk consisted of thiamine monophosphate (TMP) in addition to thiamine, with a mean TMP to total thiamine ratio of 63%. Mean whole blood TDP (130 nmol/L) and total thiamine in breast-milk (755 nmol/L) were within the upper range reported for well-nourished women. The prevalence of women with low whole blood TDP (<65 nmol/L) was 5% and with deficient breast-milk total thiamine (<300 nmol/L) was 4%. Whole blood TDP predicted both breast-milk thiamine and TMP (R(2) = 0.36 and 0.10, p<0.001). A ratio of TMP to total thiamine ≥63% was associated with a 7.5 and 4-fold higher risk of low whole blood TDP and deficient total breast-milk thiamine, respectively. Routine provision of daily 100 mg of thiamine mononitrate post-partum compared to the previous weekly 10 mg of thiamine hydrochloride resulted in significantly higher total thiamine in breast-milk. CONCLUSIONS/SIGNIFICANCE: Thiamine supplementation for lactating women in Maela refugee camp is effective and should be continued. TMP and its ratio to total thiamine in breast-milk, reported for the first time in this study, provided useful information on thiamine status and should be included in future studies of breast-milk thiamine
Retrobulbar Catheter Anesthesia as a Routine Technique for Retinal and Vitreoretinal Surgery
Broadband stimulated Raman backscattering
International audienceBroadband amplification employing stimulated Raman backscattering is demonstrated. Using seed pulses with a bandwidth of about 200 nm, we study the amplification in a wide spectral range in a single laser shot. With chirped pump pulses and a Ne gas jet, we observed under optimized conditions, amplification in a range of about 80 nm, which is sufficient to support the amplification of sub-20 fs pulses. This broad amplification range is also in excellent agreement with PIC simulations. The conversion efficiency is at certain wavelengths as high as 1.2% and was measured to be better than 6×10 −3 on average
Laser-accelerated particle beams for stress testing of materials
International audienceLaser-driven particle acceleration, obtained by irradiation of a solid target using an ultra-intense (I > 10 W/cm) short-pulse (duration <1 ps) laser, is a growing field of interest, in particular for its manifold potential applications in different domains. Here, we provide experimental evidence that laser-generated particles, in particular protons, can be used for stress testing materials and are particularly suited for identifying materials to be used in harsh conditions. We show that these laser-generated protons can produce, in a very short time scale, a strong mechanical and thermal damage, that, given the short irradiation time, does not allow for recovery of the material. We confirm this by analyzing changes in the mechanical, optical, electrical, and morphological properties of five materials of interest to be used in harsh conditions
Publisher Correction: Laser-accelerated particle beams for stress testing of materials
The original version of the Supplementary Information associated with this Article contained an error in Supplementary Figure 3 in which all panels, with the exception of the bottom-left ‘Ti’ panel, were blank. The HTML has been updated to include a corrected version of the Supplementary Information
An alternative role of FoF1-ATP synthase in Escherichia coli: synthesis of thiamine triphosphate
In E. coli, thiamine triphosphate (ThTP), a putative signaling molecule, transiently accumulates in response to amino acid starvation. This accumulation requires the presence of an energy substrate yielding pyruvate. Here we show that in intact bacteria ThTP is synthesized from free thiamine diphosphate (ThDP) and Pi, the reaction being energized by the proton-motive force (Dp) generated by the respiratory chain. ThTP production is suppressed in strains carrying mutations in F1 or a deletion of the atp operon. Transformation with a plasmid encoding the whole atp operon fully restored ThTP production, highlighting the requirement for FoF1-ATP synthase in ThTP synthesis. Our results show that, under specific conditions of nutritional downshift, FoF1-ATP synthase catalyzes the synthesis of ThTP, rather than ATP, through a highly regulated process requiring pyruvate oxidation. Moreover, this chemiosmotic mechanism for ThTP production is conserved from E. coli to mammalian brain mitochondria
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