Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 10 of 10
Full-Text Articles in Physics
The Anomalous Mössbauer Fraction Of Ferritin And Polysaccharide Iron Complex (Pic), M. E. Y. Mohie-Eldin, Richard B. Frankel, L. Gunther, G. C. Papaefthymiou
The Anomalous Mössbauer Fraction Of Ferritin And Polysaccharide Iron Complex (Pic), M. E. Y. Mohie-Eldin, Richard B. Frankel, L. Gunther, G. C. Papaefthymiou
Physics
Mössbauer studies of the ubiquitous protein molecule ferritin and its synthetic "biomimic" polysaccharide iron complex (PIC) exhibit an anomaly in the Mössbauer spectrum wherein the recoil free fraction f-factor has a sharp drop with respect to temperature as the temperature rises above 30 K for mammalian ferritin and 60 K for PIC. The anomaly coincides with the disappearance of hyperfine splitting, which is due to superparamagnetic relaxation above the blocking temperature. Different absorbers were used to experimentally investigate the effect of absorber thickness on the Mössbauer spectrum. The anomaly persists for thin absorbers. Also, spectra treated with FFT procedures …
Review Of Environmental Physics By Egbert Boeker And Rienk Van Grondelle, David W. Hafemeister
Review Of Environmental Physics By Egbert Boeker And Rienk Van Grondelle, David W. Hafemeister
Physics
No abstract provided.
Remanence Measurements On Individual Magnetotactic Bacteria Using A Pulsed Magnetic Field, Ietje Penninga, Hendrik De Waard, Bruce M. Moskowitz, Dennis A. Bazylinski, Richard B. Frankel
Remanence Measurements On Individual Magnetotactic Bacteria Using A Pulsed Magnetic Field, Ietje Penninga, Hendrik De Waard, Bruce M. Moskowitz, Dennis A. Bazylinski, Richard B. Frankel
Physics
We describe pulsed-magnetic-field remanence measurements of individual, killed, undisrupted cells of three different types of magnetotactic bacteria. The measurement technique involved the observation of aligned, individual magnetotactic bacteria with a light microscope as they were subjected to magnetic pulses of increasing amplitude. We show that for MM cells, the hysteresis loop is square, with the coercive field variable from cell to cell. This is consistent with just two magnetization states for the single chain of magnetite particles. For MR and MMP cells, the hysteresis loops are not square, indicating that there are several different magnetization states, and that individual cells …
Controlled Biomineralization Of Magnetite (Fe3O4) And Greigite (Fe3S4) In A Magnetotactic Bacterium, Dennis A. Bazylinski, Richard B. Frankel, Brigid R. Heywood, Stephen Mann, John W. King, Percy L. Donaghay, Alfred K. Hanson
Controlled Biomineralization Of Magnetite (Fe3O4) And Greigite (Fe3S4) In A Magnetotactic Bacterium, Dennis A. Bazylinski, Richard B. Frankel, Brigid R. Heywood, Stephen Mann, John W. King, Percy L. Donaghay, Alfred K. Hanson
Physics
A slowly moving, rod-shaped magnetotactic bacterium was found in relatively large numbers at and below the oxic-anoxic transition zone of a semianaerobic estuarine basin. Unlike all magnetotactic bacteria described to date, cells of this organism produce single-magnetic-domain particles of an iron oxide, magnetite (Fe3O4), and an iron sulfide, greigite (Fe3O4), within their magnetosomes. The crystals had different morphologies, being arrowhead or tooth shaped for the magnetite particles and roughly rectangular for the greigite particles, and were coorganized within the same chain(s) in the same cell with their long axes along the chain …
The Imprudence Of Prudent Avoidance, David W. Hafemeister
The Imprudence Of Prudent Avoidance, David W. Hafemeister
Physics
No abstract provided.
Magnetic Force Microscopy Of The Submicron Magnetic Assembly In A Magnetotactic Bacterium, R. B. Proksch, T. E. Schäffer, B. M. Moskowitz, E. D. Dahlberg, Dennis A. Bazylinski, Richard B. Frankel
Magnetic Force Microscopy Of The Submicron Magnetic Assembly In A Magnetotactic Bacterium, R. B. Proksch, T. E. Schäffer, B. M. Moskowitz, E. D. Dahlberg, Dennis A. Bazylinski, Richard B. Frankel
Physics
A magnetic force microscope (MFM) was used to image topography and magnetic forces from a chain of submicron single magnetic domain particles produced by and contained in isolated magnetotactic bacteria. The noncontact magnetic force microscope data were used to determine a value for the magnetic moment of an individual bacterial cell, of order 10−13 emu, consistent with the average magnetic moment of bacteria from the same sample, obtained by superconducting quantum interference device magnetometry. The results represent the most sensitive quantification of a magnetic force microscope image to date.
Monitoring Nuclear Test Ban Treaties, David W. Hafemeister
Monitoring Nuclear Test Ban Treaties, David W. Hafemeister
Physics
With the end of the Cold War, the emphasis on monitoring nuclear weapons tests has shifted from the 1976 Threshold Test Ban Treaty (TTBT), which confined the US and USSR to a limit of 150 kilotons (kt), to the Comprehensive Test Ban (CTB) Treaty, which would ban all nuclear tests by the signatories. 1995 will be a watershed year to control the proliferation of nuclear weapons, as the Nuclear Non-Proliferation Treaty (NPT) must be considered for renewal. The fate of the NPT is dependent on a successful CTB negotiation, because the two treaties are politically linked. This paper will cover …
Effects Of Imperfect Unipolarity On The Ionization Of Rydberg Atoms By Subpicosecond Half-Cycle Pulses, N. E. Tielking, Thomas J. Bensky, Robert R. Jones
Effects Of Imperfect Unipolarity On The Ionization Of Rydberg Atoms By Subpicosecond Half-Cycle Pulses, N. E. Tielking, Thomas J. Bensky, Robert R. Jones
Physics
Rydberg atoms are ionized by nearly unipolar, subpicosecond electromagnetic pulses. Deviations from a perfectly unidirectional pulse are found to alter substantially the ionization probability as a function of peak field. Quantitative agreement between classical theory and experiment is achieved if the pulse imperfections are significantly attenuated.
Microbes, Magnetism, And Microscopy, E. Dan Dahlberg, R. B. Proksch, Bruce M. Moskowitz, Dennis A. Bazylinski, Richard B. Frankel
Microbes, Magnetism, And Microscopy, E. Dan Dahlberg, R. B. Proksch, Bruce M. Moskowitz, Dennis A. Bazylinski, Richard B. Frankel
Physics
An accurate quantification of magnetic force microscope images has been accomplished. The magnetosomes produced by magnetotactic bacteria, an ideal micromagnetic model system, were the specimens used for the quantification (a moment on the order of 10−13 emu).
Structure And Function Of Magnetosomes In Magnetotactic Bateria, Richard B. Frankel, Dennis A. Bazylinski
Structure And Function Of Magnetosomes In Magnetotactic Bateria, Richard B. Frankel, Dennis A. Bazylinski
Physics
Magnetotactic bacteria contain magnetosomes, which are mineral particles enclosed my membranes. The particles are ferrimagnetic magnetite, ferrimagnetic greigite, or greigite and non-magnetic pyrite. The particles constitute an elegant biomagnetic compass that orients the cell along the geomagnetic field lines as it swims. This paper discusses the structures of these particles and their possible formation mechanisms.