<h:div class="summary">The numeric representation of an isotope.</h:div> <h:div class="description"> <h:p>In core CML this represents a single number; either the combined proton/neutron count or a more accurate estimate of the nuclear mass. This is admittedly fuzzy, and requires a more complex object (which can manage conventions, lists of isotopic masses, etc.) See <h:a href="el.isotope">isotope</h:a>.</h:p> <h:p>The default is "natural abundance" - whatever that can be interpreted as.</h:p> <h:p>Delta values (i.e. deviations from the most abundant istopic mass) are never allowed.</h:p> </h:div> |
<xsd:simpleType name="isotopeType" id="st.isotopeType"> <xsd:annotation> <xsd:documentation> <h:div class="summary">The numeric representation of an isotope.</h:div> <h:div class="description"> <h:p>In core CML this represents a single number; either the combined proton/neutron count or a more accurate estimate of the nuclear mass. This is admittedly fuzzy, and requires a more complex object (which can manage conventions, lists of isotopic masses, etc.) See <h:a href="el.isotope">isotope</h:a>.</h:p> <h:p>The default is "natural abundance" - whatever that can be interpreted as.</h:p> <h:p>Delta values (i.e. deviations from the most abundant istopic mass) are never allowed.</h:p> </h:div> </xsd:documentation> </xsd:annotation> <xsd:restriction base="xsd:double"> <xsd:minInclusive value="0.0"/> <xsd:maxInclusive value="99999999999.0"/> </xsd:restriction> </xsd:simpleType> |