F.A. Brand scite author profile

F.A. Brand

5Publications

56Citation Statements Received

23Citation Statements Given

How they've been cited

174

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Affiliations

Berlin School of Economics and Law, United States Department of the Army, United States Army

Publications

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The Mechanism of Field Dependent Secondary Emission

Jacobs¹,

Freely²,

Brand³

1952

Phys. Rev.

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that using 7=1.7, the then accepted value, does not yield good quantitative agreement with experiment and suggested that better agreement would be obtained with a smaller value of 7. In a further paper 13 (appar-13 H. Messel, Proc. Phys. Soc. (London) A64, 726 (1951). ently overlooked by Treiman), Messel presented results adopting "the upper limit 7=1.1." Instead of the agreement between Messel's theory (with 7=1.7) and experiment being spurious, the facts are, as stated in the literature, that with 7=1.7 the theory is not in good quantitative agreement but with 7= 1.1 they are.In recent experimental investigations, it was found that secondary emission ratios as high as 10,000 to 1 could be attained utilizing field dependent secondary emission from magnesium oxide. Early tests showed the mechanism causing the high gains to be fundamentally different from the more standard secondary emission phenomenon.The hypothesis was made that the mechanism of field dependent secondary emission was a process similar to that of the "Townsend avalanche" occurring in gas discharges. As the surface of the dielectric film was bombarded with primary electrons, the high resistivity of the material in combination with the secondary emission current caused the surface to charge to the potential of the collector grid, producing a high field within the dielectric. Electrons released within the material could then gain enough energy to liberate additional electrons, and an avalanche type process resulted.Experiments were conducted to test this hypothesis and each proved to be consistent with the above theory. The main content of these experiments can be summarized in the following statements:(1) The high yields appeared to be independent of the base material. This indicated that the surface or volume effects were most important, implying that a Fowler type field emission from the base metal was not a significant factor.(2) In studying the secondary current as a function of field, the gas discharge equations were found to be correct. These equations predicted a straight line plot of the In ln5 vs 1/E, and in addition, gave a close estimate of the magnitude of the secondary emission ratio.(3) By means of retarding potential measurements, the energies and mean free paths of the emitted secondary electrons were determined. These data were in good agreement with the results in item (2).(4) The rise time for surface charging was determined by using square wave variations of bombarding currents, and was found to be consistent with the original hypothesis.

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Microwave Techniques in Measurement of Lifetime in Germanium

Ramsa

Jacobs²,

Brand³

1959

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New techniques are proposed for the measurement of lifetime in semiconductors by utilizing the absorption of microwave power by charge carriers. The densities of holes and electrons are varied by irradiation with light or the conduction mechanism. Agreement is found when the microwave absorption methods are compared with the more established photoconductivity decay techniques. One of the new methods offers an advantage in that electrode attachments are no longer required.

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Quality descriptors of optical beams based on centred reduced moments I: spot analysis

Castañeda

Garcı́a-Sucerquia

Brand

2003

Optics Communications

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Quality descriptors of optical beams based on centred reduced moments II: retrieving of the complex degree of spatial coherence through the spot moments

Castañeda

Garcı́a-Sucerquia

Brand

2004

Optics Communications

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Isolierung von Dibenzyläther‐hydroperoxid aus den Peroxygenaten von Benzylalkohol und Dibenzyläther

Rieche¹,

Seyfarth²,

Brand³

1969

Justus Liebigs Ann. Chem.

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Durch Peroxygenierung von Dibenzylather (1) und Benzylalkohol (2) entsteht Dibenzylatherhydroperoxid (4). das saulenchromatographisch in 95-bzw. 92.5proz. Reinheit isoliert wird. Saure Hydrolyse von 4 ergibt Benzaldehyd (5). 2 und Wasserxtoffperoxid; katalytische Hydrierung fuhrt zu 5, 2 und Wasser; mit 5 n NaOH entstehen Benzoesaure (6) und 2. Bei der katalytischen Zersetzung von 4 mit Eisen(1I)-sulfat bildet sich Benzoesaurebenzylester (7).

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F.A. Brand

The Mechanism of Field Dependent Secondary Emission

Microwave Techniques in Measurement of Lifetime in Germanium

Quality descriptors of optical beams based on centred reduced moments I: spot analysis

Quality descriptors of optical beams based on centred reduced moments II: retrieving of the complex degree of spatial coherence through the spot moments

Isolierung von Dibenzyläther‐hydroperoxid aus den Peroxygenaten von Benzylalkohol und Dibenzyläther

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