References
- A. NOTEA and Y. SEGAL, “A General Approach to the Design of Radiation Gauge,” Nucl. Technol., 24, 73 (1974).
- Y. SEGAL, A. NOTEA and E. SEGAL, “A Systematic Evaluation of Nondestructive Testing Methods,” Research Techniques in Nondestructive Testing, Chap. 9, R. S. SHARPE, Ed., Academic Press (1977).
- E. ELIAS, Y. SEGAL and A. NOTEA, “Dual Gauging Utilizing Penetrating and Scattered Photon Fluxes,” Nucl. Technol., 33, 305 (1977).
- B. ROSNER, A. NOTEA and Y. SEGAL, “Thickness Gauging Through the Ratio of X-Ray Fluorescence,” Thin Solid Films, 27, 1, 141 (1975).
- A. NOTEA and Y. SEGAL, “Evaluation of a Gamma-Spectroscopy Gauge for U-Pu Assay,” Safeguarding Nuclear Materials, Vol. II, p. 199, International Atomic Energy Agency, Vienna (1976).
- N. SHENHAV, Y. SEGAL and A. NOTEA, “Application of Neutron Count Moment Analysis Method to Passive Assay,” Nucl. Sci. Eng., 80, 61 (1982).
- A NOTEA, “Design of Nuclear Clock,” Nucl. Instrum. Methods, 185, 539 (1981).
- A NOTEA, C. AHARONI and Y. SEGAL, “Radiogauge for Adsorbate Concentration in Adsorbent Bed,” Nucl. Instrum. Methods, 134, 339 (1976).
- A. FISHMAN, A. NOTEA and Y. SEGAL, “Gamma Transmission Gauge for Assay of Integral Water Content in Soil,” Nucl. Instrum. Methods, 184, 571 (1981).
- E. ELIAS, Y. SEGAL and A. NOTEA, “Gamma Gauge for the Control of Interzone Layer in an Extraction Tower,” Nucl. Technol., 21, 57 (1974).
- T. VEMURA, “The Response of the Gamma-Ray Density Gauge to the Boundary Between Two Materials,” Japanese J. Appl. Phys., 9, 673 (1967).
- R. P. GARDNER and R. L. ELY, Radioisotopes Measurement Applications in Engineering, Reinhold Publishing Corporation, New York (1967).
- E. A. STRAKER, P. N. STEVENS, D. C. IRVING and V. R. CAIN, “The MORSE Code–A Multigroup Neutron and Gamma Ray Monte Carlo Transport Code,” ORNL-4585, Oak Ridge National Laboratory (1970).
- Y. SEGAL, A. GUTMAN, A. FISHMAN and A. NOTEA, “Point Spread Functions Due to Neutron Scattering in Thermal Neutron Radiography of Aluminum, Iron, Zircaloy and Polyethylene Objects,” Nucl. Instrum. Methods, 197, 557 (1982).