Presentation and comparison of damage test procedures for fused silica and KDP crystals

Damage Thresholds of Fused Silica, Plastics and KDP Crystals Measured with 0.6-ns 355-nm Pulses

Laser Induced Damage In Optical Materials: 1983 ◽

10.1520/stp28960s ◽

2008 ◽

pp. 84-84-7

Author(s):

MC Staggs ◽

F Rainer

Keyword(s):

Fused Silica ◽

Kdp Crystals

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SEM analysis of DC magnetron sputtered beryllium films

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100106867 ◽

1988 ◽

Vol 46 ◽

pp. 960-961

Author(s):

E. F. Lindsey ◽

C. W. Price ◽

E. L. Pierce ◽

E. J. Hsieh

Keyword(s):

Fine Structure ◽

Electron Emission ◽

Secondary Electron ◽

Low Voltage ◽

Ion Beam ◽

Secondary Electron Emission ◽

Sem Analysis ◽

Fused Silica ◽

Grain Structure ◽

Silica Substrate

Columnar structures produced by DC magnetron sputtering can be altered by using RF biased sputtering or by exposing the film to nitrogen pulses during sputtering, and these techniques are being evaluated to refine the grain structure in sputtered beryllium films deposited on fused silica substrates. Beryllium is brittle, and fractures in sputtered beryllium films tend to be intergranular; therefore, a convenient technique to analyze grain structure in these films is to fracture the coated specimens and examine them in an SEM. However, fine structure in sputtered deposits is difficult to image in an SEM, and both the low density and the low secondary electron emission coefficient of beryllium seriously compound this problem. Secondary electron emission can be improved by coating beryllium with Au or Au-Pd, and coating also was required to overcome severe charging of the fused silica substrate even at low voltage. The coating structure can obliterate much of the fine structure in beryllium films, but reasonable results were obtained by using the high-resolution capability of an Hitachi S-800 SEM and either ion-beam coating with Au-Pd or carbon coating by thermal evaporation.

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General considerations for skin test procedures in the diagnosis of drug hypersensitivity

Allergy ◽

10.1034/j.1398-9995.2002.13027.x ◽

2002 ◽

Vol 57 (1) ◽

pp. 45-51 ◽

Cited By ~ 40

Author(s):

K. Brockow ◽

A. Romano ◽

M. Blanca ◽

J. Ring ◽

W. Pichler ◽

...

Keyword(s):

Skin Test ◽

Drug Hypersensitivity ◽

Test Procedures

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A comparison of aggregate stability test procedures in determining the stability of fine sandy soils in fife, Scotland

CATENA ◽

10.1016/s0341-8162(79)80009-0 ◽

1979 ◽

Vol 6 ◽

pp. 123-129 ◽

Cited By ~ 3

Author(s):

I GRIEVE

Keyword(s):

Aggregate Stability ◽

Sandy Soils ◽

Stability Test ◽

Test Procedures ◽

The Stability

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Investigation of fused silica dynamic behaviour

Journal de Physique IV (Proceedings) ◽

10.1051/jp4:2006134142 ◽

2006 ◽

Vol 134 ◽

pp. 929-934 ◽

Cited By ~ 2

Author(s):

F. Malaise ◽

J.-M. Chevalier ◽

I. Bertron ◽

F. Malka

Keyword(s):

Dynamic Behaviour ◽

Fused Silica

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Reliability of Laboratory Tests for the Control of Oral Anticoagulation

Thrombosis and Haemostasis ◽

10.1055/s-0038-1647716 ◽

1974 ◽

Vol 32 (02/03) ◽

pp. 483-491

Author(s):

E. A Loeliger ◽

M. J Boekhout-Mussert ◽

L. P van Halem-Visser ◽

J. D. E Habbema ◽

H de Jonge

Keyword(s):

Human Brain ◽

Laboratory Tests ◽

Test Procedure ◽

Rabbit Brain ◽

Normal Range ◽

Test Procedures ◽

Discrimination Power ◽

Power Of The Test ◽

Assay Procedure ◽

Low Sensitivity

SummaryThe present study concerned the reproducibility of the so-called prothrombin time as assessed with a series of more commonly used modifications of the Quick’s onestage assay procedure, i.e. the British comparative reagent, homemade human brain thromboplastin, Simplastin, Simplastin A, and Thrombotest. All five procedures were tested manually on pooled lyophilized normal and patients’ plasmas. In addition, Simplastin A and Thrombotest were investigated semiautomatically on individual freshly prepared patients’ plasmas. From the results obtained, the following conclusions may be drawn :The reproducibility of results obtained with manual reading on lyophilized plasmas is satisfactory for all five test procedures. For Simplastin, the reproducibility of values in the range of insufficient anticoagulation is relatively low due to the low discrimination power of the test procedure in the near-normal range (so-called low sensitivity of rabbit brain thromboplastins). The reproducibility of Thrombotest excels as a consequence of its particularly easily discerned coagulation endpoint.The reproducibility of Thrombotest, when tested on freshly prepared plasmas using Schnitger’s semiautomatic coagulometer (a fibrinometer-liJce apparatus), is no longer superior to that of Simplastin A.The constant of proportionality between the coagulation times formed with Simplastin A and Thrombotest was estimated at 0.64.Reconstituted Thrombotest is stable for 24 hours when stored at 4° C, whereas reconstituted Simplastin A is not.The Simplastin A method and Thrombotest seem to be equally sensitive to “activation” of blood coagulation upon storage.

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Use of a Lyophilized Reference Plasma to Compare Coagulation Test Procedures

Thrombosis and Haemostasis ◽

10.1055/s-0038-1651402 ◽

1975 ◽

Vol 34 (02) ◽

pp. 426-444 ◽

Cited By ~ 3

Author(s):

J Kahan ◽

I Nohén

Keyword(s):

Oral Anticoagulant Therapy ◽

Repeated Measurements ◽

Test Procedures ◽

Coagulation Activity ◽

Close Relationship ◽

Measured Activity ◽

Test Materials ◽

The Difference ◽

The Stability ◽

The One

SummaryIn 4 collaborative trials, involving a varying number of hospital laboratories in the Stockholm area, the coagulation activity of different test materials was estimated with the one-stage prothrombin tests routinely used in the laboratories, viz. Normotest, Simplastin-A and Thrombotest. The test materials included different batches of a lyophilized reference plasma, deep-frozen specimens of diluted and undiluted normal plasmas, and fresh and deep-frozen specimens from patients on long-term oral anticoagulant therapy.Although a close relationship was found between different methods, Simplastin-A gave consistently lower values than Normotest, the difference being proportional to the estimated activity. The discrepancy was of about the same magnitude on all the test materials, and was probably due to a divergence between the manufacturers’ procedures used to set “normal percentage activity”, as well as to a varying ratio of measured activity to plasma concentration. The extent of discrepancy may vary with the batch-to-batch variation of thromboplastin reagents.The close agreement between results obtained on different test materials suggests that the investigated reference plasma could be used to calibrate the examined thromboplastin reagents, and to compare the degree of hypocoagulability estimated by the examined PIVKA-insensitive thromboplastin reagents.The assigned coagulation activity of different batches of the reference plasma agreed closely with experimentally obtained values. The stability of supplied batches was satisfactory as judged from the reproducibility of repeated measurements. The variability of test procedures was approximately the same on different test materials.

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