the mössbauer effect enables precise measurements of nuclear energy levels without recoil.
莫塞堡效应使得在无反冲的情况下能够精确测量核能级。
scientists use mössbauer spectroscopy to analyze the chemical environment of iron atoms in minerals.
科學家使用莫塞堡光譜學來分析礦物中鐵原子的化學環境。
a radioactive cobalt-57 source is commonly employed in mössbauer experiments to study iron-containing compounds.
放射性鈷-57來源常被用於莫塞堡實驗中,以研究含鐵化合物。
the mössbauer spectrum reveals valuable information about oxidation states and magnetic properties of materials.
莫塞堡光譜揭示了有關材料氧化態和磁性特性的寶貴資訊。
researchers have developed portable mössbauer instruments for field analysis of geological samples.
研究人員已經開發出便攜式莫塞堡儀器,用於現場分析地質樣本。
the mössbauer resonance technique enables non-destructive testing of artworks and artifacts.
莫塞堡共振技術使得能夠對藝術品和文物進行非破壞性測試。
temperature variations can significantly affect the mössbauer effect by changing the lattice vibrations.
溫度變化會通過改變晶格振動顯著影響莫塞堡效應。
accurate velocity calibration is essential for obtaining high-quality mössbauer spectra.
精確的速度校準對於獲得高品質的莫塞堡光譜是必不可少的。
mössbauer spectroscopy provides unique insights into the electronic structure of tin compounds.
莫塞堡光譜學為錫化合物的電子結構提供了獨特的見解。
hyperfine interactions in mössbauer measurements reveal information about nuclear energy level splitting.
莫塞堡測量中的超精細相互作用揭示了有關核能級分裂的資訊。
the lamb-mössbauer factor determines the probability of recoil-free gamma-ray emission in solids.
蘭布-莫塞堡因子決定了固體中無反衝伽馬射線發射的概率。
mössbauer spectroscopy has been used to investigate phase transitions in iron-bearing minerals at high temperatures.
莫塞堡光譜學已被用於研究高溫下含鐵礦物的相變。
the mössbauer effect enables precise measurements of nuclear energy levels without recoil.
莫塞堡效应使得在无反冲的情况下能够精确测量核能级。
scientists use mössbauer spectroscopy to analyze the chemical environment of iron atoms in minerals.
科學家使用莫塞堡光譜學來分析礦物中鐵原子的化學環境。
a radioactive cobalt-57 source is commonly employed in mössbauer experiments to study iron-containing compounds.
放射性鈷-57來源常被用於莫塞堡實驗中,以研究含鐵化合物。
the mössbauer spectrum reveals valuable information about oxidation states and magnetic properties of materials.
莫塞堡光譜揭示了有關材料氧化態和磁性特性的寶貴資訊。
researchers have developed portable mössbauer instruments for field analysis of geological samples.
研究人員已經開發出便攜式莫塞堡儀器,用於現場分析地質樣本。
the mössbauer resonance technique enables non-destructive testing of artworks and artifacts.
莫塞堡共振技術使得能夠對藝術品和文物進行非破壞性測試。
temperature variations can significantly affect the mössbauer effect by changing the lattice vibrations.
溫度變化會通過改變晶格振動顯著影響莫塞堡效應。
accurate velocity calibration is essential for obtaining high-quality mössbauer spectra.
精確的速度校準對於獲得高品質的莫塞堡光譜是必不可少的。
mössbauer spectroscopy provides unique insights into the electronic structure of tin compounds.
莫塞堡光譜學為錫化合物的電子結構提供了獨特的見解。
hyperfine interactions in mössbauer measurements reveal information about nuclear energy level splitting.
莫塞堡測量中的超精細相互作用揭示了有關核能級分裂的資訊。
the lamb-mössbauer factor determines the probability of recoil-free gamma-ray emission in solids.
蘭布-莫塞堡因子決定了固體中無反衝伽馬射線發射的概率。
mössbauer spectroscopy has been used to investigate phase transitions in iron-bearing minerals at high temperatures.
莫塞堡光譜學已被用於研究高溫下含鐵礦物的相變。
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