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An experiment concept to measure stratospheric trace constituents by laser heterodyne spectroscopy (1980)

Allario, F. ; Hoell, J. M. ; Katzberg, S. J. ; [et al.]

Springer

Applied physics 23 (1980), S. 47-56

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ISSN: 1432-0630

Keywords: 89.60 ; 35.80 ; 06.70

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics , Physics

Notes: Abstract Laser heterodyne spectroscopy (LHS) techniques with semiconductor laser local oscillators (LO) in the 3–30 μm range have the potential to measure radical gas species in the stratosphere. The goal of this experiment is to measure radical gases from Spacelab, including ClO, ClONO2, HO2, H2O2, N2O5, and HOCl in solar occulation with vertical resolution ≦2km and vertical range from 10 to 70 km. Sensitivity analyses have been performed on ClO and O3 to determine design criteria for the LHS instrument. Results show that O3 and ClO vertical profiles can be measured with an accuracy ≧95% and ≧80%, respectively, over the total profile. These accuracies require the LO to maintain the following characteristics: frequency stability (Δf w≦20 MHz), single-mode power (P LO≧500 μW), and minimum frequency drift (≦5 MHz). Laboratory heterodyne measurements performed with semiconductor lasers generated the same shot-noise photocurrent as CO2 lasers, for comparable single-mode power. “Excess-noise” regions were identified, but could be wavelength controlled by fine control of operating temperature and injection current. Doppler-shift effects and limited solar occultation measurement times due to Spacelab orbits should pose minimum mission constraints on the experiment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00899570

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Effects of nickel on the rates of endocytosis, motility, and proliferation inTetrahymena and determinations on the cell content of the metal (1983)

Larsen, J. ; Nilsson, J. R.

Springer

Protoplasma 118 (1983), S. 140-147

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ISSN: 1615-6102

Keywords: Nickel ; Endocytosis ; Motility ; Proliferation ; Cellular nickel content ; Adaptation ; Tetrahymena pyriformis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary At concentrations above 1 mM, nickel has a dose-dependent effect on the rate of food vacuole formation in cells in the growth medium, proteose peptone (PP); total inhibition of endocytosis occurs within 10 minutes in 6mM nickel. However, only a 10 times lower concentration of nickel is tolerated by starved cells in an inorganic salt medium, a difference which may be ascribed to the high binding property of nickel to organic material. In the PP medium, nickel affects cell motility by increasing the rate of movement at a concentration of 1 mM, and by causing immobilization after 30 minutes in 6mM nickel; a spontaneous, partial recovery of cell motility is seen after 3 hours in 6 mM nickel. The effects of nickel on endocytosis and cell motility are reversible after removal of nickel. Cell proliferation continues at a reduced rate in 1 mM nickel, while only 1 1/2 cell doublings are achieved in 3 mM nickel during a 72-hour exposure, and no proliferation occurs in 6mM nickel, where an increasing cell mortality is observed after 12 hours. The cell content of nickel relates initially to the external concentration of the metal; however, cells in 1 mM nickel are capable of maintaining a constant content of the metal, whereas in 3 mM, the rate of accumulation is reduced after 3 hours, and cells in 6mM nickel accumulate the metal at a constant rate. All nickel-treated cells contain small refractive granules, previously proposed as representing an ion-regulating system, and the apparent adaption ofTetrahymena to the effects of nickel may be ascribed to such a regulation of the intracellular concentration of the metal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01293071

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