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1 s Planck's constant divided by 2pi and m the atomic mass.
2 alysis works in units of moieties instead of atomic masses.
3 detected if the analysis is done in units of atomic masses.
4 our L-Ala compounds in which hydrogen atoms (atomic mass = 1 amu) were substituted with deuterium ato
5 amu) were substituted with deuterium atoms (atomic mass = 2 amu): L-Ala-2-d, L-Ala-3,3,3-d(3), L-Ala
6 15 microns, which we interpret as tellurium (atomic mass A = 130) and a very red source, emitting mos
7 detection of mass balance errors, especially atomic mass analysis (AMA) (which compares the counts of
8 ement isotopes are characterized by distinct atomic masses and nuclear spins, which can significantly
9 e interplay between first ionization energy, atomic mass, and ionic Lewis acidity dictates stability.
10 erties determined by intramolecular bonding, atomic masses, and molecular geometry, and often serve a
11 e sensing of weak forces, the measurement of atomic masses, and the development of radiation-balanced
12 y by combining very accurate measurements of atomic-mass difference, Delta(m), and of gamma-ray wavel
13 The RESID Database can be used to predict atomic masses for peptides, and is being enhanced to pro
16 es on libraries of known information such as atomic masses, known stable isotopes, atomic composition
17 ly, especially when the impurity atom has an atomic mass lower or higher than both of the two base el
19 t their thermal conductivity can be tuned by atomic mass modifications as revealed through molecular
21 mass number less than 140) and one of heavy (atomic mass number greater than 140) r-process elements.
22 of ejecta, one composed primarily of light (atomic mass number less than 140) and one of heavy (atom
25 erconducting phase diagram of lithium on its atomic mass opens up the question of whether the lattice
26 can create r-process elements across a broad atomic mass range and play a central role in heavy-eleme
27 The capacity for the LS-APGD to affect both atomic mass spectra and structurally significant spectra
29 Tb and Tm ions, allowing us to estimate via atomic mass spectrometry that 85% of the template surfac
30 ing size exclusion chromatography coupled to atomic mass spectrometry with geochemical equilibrium mo
31 spectra confirmed the anticipated shift of 1 atomic mass unit for PEP (m/z 168), EPSP (m/z 324), and
32 Mass analysis of the byproduct revealed a 2-atomic mass unit reduction compared with indolicidin, su
33 eavy iron isotopes by 0.1 to 0.5 per mil per atomic mass unit relative to igneous rocks worldwide.
34 on of energetic (>300 kiloelectron volts per atomic mass unit) sulfur and oxygen ions out of Jupiter'
35 ducts were observed from scan range 200-1000 atomic mass units (amu) in the aqueous phase after irrad
36 ce of a nanoparticle with a mass above 10(8) atomic mass units delocalized by several nanometers, on
38 oxidized in vitro to a substance that is 16 atomic mass units larger, consistent with the formation
40 e major product from the other peptide was 4 atomic mass units smaller than its precursor (WG-4).
43 ides of masses ranging from about 690 to 890 atomic mass units, of which six quantitatively major spe