“…"The closed-shell nuclide 96 Pd has been found to decay with a 2.0 min half-life to a 1 + state at 177 keV in 96 Rh." This half-life is consistent with the presently accepted value of 122(2) s. 97 Pd 97 Pd was first identified in 1969 by Aten and Kapteyn in "Palladium-97" [21]. An enriched 96 Ru target was irradiated with 15−22 MeV 3 He beams and 97 Pd was formed in the ( 3 He,2n) reaction.…”
Section: Pdsupporting
confidence: 87%
“…The half-lives of 109 Pd and 111 Pd had initially been reported without a mass assignment, the half-life of 98 Pd was at first assigned to either 96 Pd or 98 Pd, and the half-life of 107 Pd was at first assigned to an isomeric state of 105 Pd.…”
Section: Discussionmentioning
confidence: 99%
“…108 Te 108 Te was observed by Bogdanov et al in the 1974 paper "Delayed protons from Te 109 and the β-decay strength function" [92]. 108 Te was produced in the (4n) fusion-evaporation reaction by bombarding an enriched 96 Previously reported half-lives of 2.2(2) s and 5.3(4) s assigned to 107 Te and 108 Te [91,94] were later reassigned to 108 Te and 109 Te, respectively [93,95].…”
Section: Tementioning
confidence: 99%
“…In the 1967 paper "Proton emitters among Te isotopes", Karnaukhov et al identified 109 Te [96]. 92 Mo and 94 Mo targets were bombarded with a 20 Ne beam from the Dubna 300 cm heavy-ion cyclotron forming 109 Te in the (3n) and (5n) fusion-evaporation reactions, respectively.…”
Currently, thirty-eight palladium, thirty-eight antimony, thirty-nine tellurium, thirty-eight iodine, and forty xenon isotopes have been observed and the discovery of these isotopes is discussed here. For each isotope a brief synopsis of the first refereed publication, including the production and identification method, is presented.
“…"The closed-shell nuclide 96 Pd has been found to decay with a 2.0 min half-life to a 1 + state at 177 keV in 96 Rh." This half-life is consistent with the presently accepted value of 122(2) s. 97 Pd 97 Pd was first identified in 1969 by Aten and Kapteyn in "Palladium-97" [21]. An enriched 96 Ru target was irradiated with 15−22 MeV 3 He beams and 97 Pd was formed in the ( 3 He,2n) reaction.…”
Section: Pdsupporting
confidence: 87%
“…The half-lives of 109 Pd and 111 Pd had initially been reported without a mass assignment, the half-life of 98 Pd was at first assigned to either 96 Pd or 98 Pd, and the half-life of 107 Pd was at first assigned to an isomeric state of 105 Pd.…”
Section: Discussionmentioning
confidence: 99%
“…108 Te 108 Te was observed by Bogdanov et al in the 1974 paper "Delayed protons from Te 109 and the β-decay strength function" [92]. 108 Te was produced in the (4n) fusion-evaporation reaction by bombarding an enriched 96 Previously reported half-lives of 2.2(2) s and 5.3(4) s assigned to 107 Te and 108 Te [91,94] were later reassigned to 108 Te and 109 Te, respectively [93,95].…”
Section: Tementioning
confidence: 99%
“…In the 1967 paper "Proton emitters among Te isotopes", Karnaukhov et al identified 109 Te [96]. 92 Mo and 94 Mo targets were bombarded with a 20 Ne beam from the Dubna 300 cm heavy-ion cyclotron forming 109 Te in the (3n) and (5n) fusion-evaporation reactions, respectively.…”
Currently, thirty-eight palladium, thirty-eight antimony, thirty-nine tellurium, thirty-eight iodine, and forty xenon isotopes have been observed and the discovery of these isotopes is discussed here. For each isotope a brief synopsis of the first refereed publication, including the production and identification method, is presented.
“…In recent years, LAB have received increased attention because of their ability to secrete extracellular polysaccharides and exopolysaccharides (EPS) that are naturally produced during the fermentation process [3]. Isolation and identification of the LAB in koumiss will yield valuable knowledge, such as help improve quality [4] and reveal the physiological function of koumiss [5,6]. This study analysed 12 koumiss samples, which were aseptically collected from different households in Inner Mongolia.…”
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.