Energy correlations of prompt neutrons from 252Cf fission

Whittal, David Mark

January 1983

Measurements have been made of the neutron-neutron energy correlations for coincident neutrons emitted in the spontaneous fission of ²⁵²Cf. The hypothesis that cooling of the fission fragments during the cascade evaporation of prompt neutrons affects the energies of successive neutrons in a cascade has been investigated by a comparison of the energy correlations of coincident neutrons from the same fragment with those of coincident neutrons from opposite fragments in the same fission. It is found that the energies of coincident neutrons are posftively correlated and that the correlation coefficient is greater for neutrons from opposite fragments than for neutrons from the same fragment. This provides a sensitive test of the nature of neutron emission in an evaporation cascade. The energy correlations of random (noncoincidental) neutrons have also been investigated and are found to show similar but smaller correlation trends. It is concluded that there is some evidence for the cascade cooling effect on the energies of prompt fission neutrons.

Physics

Neutrons

Nuclear fission

Experimental studies at CERN-nTOF of the 230Th(n,f) reaction

Lapinski, Felicia

January 2020

This work investigates the feasibility to perform an experiment at CERN n_TOF to study the fission cross section and fission fragment angular distribution (FFAD) of the 230Th(n,f) reaction. An analysis of fission fragment energy losses in the experimental target resulted in a choice of target thickness of 0.1 µm (100 µg/cm2 ), which yields good transmission out of the target at up to 45° emission angles from the target normal. A detection setup using ten PPAC detectors with nine thorium targets interleaved in between them was investigated, where the detectors and targets were tilted 45° with respect to the neutron beam. This makes it possible to measure all emission angles needed with respect to the neutron beam in order to determine the FFAD. For the experimental area EAR2 at n_TOF, a prediction of the count rate in the experiment resulted in low statistical uncertainties after a few weeks of beam time, which indicates that an experiment like this is feasible. / Detta projekt undersöker genomförbarheten av ett experiment vid CERN n_TOF för att mäta tvärsnittet och fördelningen av emissionsvinklar av fissionsfragment (FFAD) från 230Th(n,f)-reaktionen. En analys av energiförlusterna av fissionsfragment inuti torium-provet resulterade i en optimal provtjocklek på 0.1 µm (100 µg/cm2 ), vilket medför att fissionsfragment som emitteras i vinklar upp till 45° från provets normal har hög sannolikhet att transmitteras ut ur provet. En detektionsuppställning med tio PPAC-detektorer med nio toriumprov mellan dem undersöktes, där detektorerna och proven antogs vara snedställda med 45° från neutronstrålens riktning. Detta möjliggör detektion av fissionsfragment i alla vinklar som är nödvändiga för att kunna mäta hela FFAD. För experimentanläggningen EAR2 vid n_TOF, resulterade en uppskattning av antalet detekterade fissionsevent per sekund i låga mätosäkerheter efter ett par veckor av mättid, vilket antyder att experimentet är görbart.

fission

neutron induced fission

fission cross section

fission fragment angular distribution

thorium

Physical Sciences

Fysik

Recoil studies of fission products formed in the fission of 238U by protons of energies 25-85 MeV.

Ramamoorthy, Anant Narayanan.

January 1969

No description available.

Radiochemistry

Fission products

Isotopic yield distributions of products formed from the fission of 233U and 235U by protons of energy 40-100 MeV

Beeley, Philip A.

January 1981

No description available.

Nuclear fission.

Uranium -- Isotopes.

Nuclear charge distribution in the region of symmetric fission of 238U by protons of energy 20-85 MeV

Sarkar, Samir.

January 1974

No description available.

Nuclear fission.

Nuclear reactions.

Nuclear charge distribution in the region of asymmetric fission of 238U by protons of energy 20-85 MeV

Galinier, Jean-Louis.

January 1975

No description available.

Nuclear reactions.

Nuclear fission.

Fissionability and charge dispersion studies of thorium by protons of energy to 90 MeV

Chung, Chien

January 1980

Note:

Nuclear fission.

Nuclear reactions.

Effects of sulfhydryl reagents on the fission number and mating ability of Paramecium Multimicronucleatum.

Forget, Josette

January 1968

No description available.

Fission (Biology)

Paramecium.

Identifying short-lived fission products by delayed gamma-ray emission

Egnatuk, Christine Marie

13 August 2010

samples were irradiated for approximately 45 minutes to allow for the saturation of fission products. The first method used the beam port shutter and allowed for longer counting and irradiation times, but was unsuitable for examining fission products with half-lives below 10 seconds. The on/off method used a cycle of equal irradiation and counting times of one minute. The second method is able to measure track the production of fission products with half-lives of less than 10 seconds. This method used a borated aluminum wheel beam chopper to stop the irradiation of the sample during counting. The beam chopper was set to cycle for approximately one second of counting following half a second of irradiation. The spectra from both methods were analyzed and the peaks were assigned to the appropriate fission products. The majority of the peaks were composed of gamma-rays from multiple nuclides. The peaks created by gamma-rays from decays of a single nuclide were used to calculate the detection limits of the system. Using the beam chopper system, 21 peaks would be above the detection limits of our system 95% of the time for uranium samples of less than one kilogram. / text

Gamma-ray

PGAA

Prompt gamma activation analysis

Fission products

Fission

Analysis of Advanced Actinide-Fueled Energy Systems for Deep Space Propulsion Applications

Guy, Troy Lamar

2009 December 1900

The present study is focused on evaluating higher actinides beyond uranium that are capable of supporting power and propulsion requirements in robotic deep space and interstellar exploration. The central technology in this thesis is based on utilizing advanced actinides for direct fission fragment energy conversion coupled with magnetic collimation. Critical fission configurations are explored which are based on fission fragment energy conversion utilizing a nano-scale layer of the metastable isotope 242mAm coated on carbon fibers. A 3-D computational model of the reactor core is developed and neutron properties are presented. Fission neutron yield, exceptionally high thermal fission cross sections, high fission fragment kinetic energy and relatively low radiological emission properties are identified as promising features of 242mAm as a fission fragment source. The isotopes 249Cf and 251Cf are found to be promising candidates for future studies. Conceptual system integration, deep space mission applicability and recommendations for future experimental development are introduced.

actinide

deep space

propulsion

americium

fission

fission fragments