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Mass Analyzers: Common Types01:19

Mass Analyzers: Common Types

The quadrupole mass analyzer consists of four cylindrical metal rods arranged in a diamond carrying a DC voltage and a radio-frequency AC voltage. The motion of ions through the quadrupole depends on the field strength, causing only ions of a certain m/z to resonate successfully and strike the detector at a given field strength. Though the transmission rate for these analyzers is high, the exact elemental composition of the sample is not determined because of low resolution; however, they are...
Mass Analyzers: Overview01:13

Mass Analyzers: Overview

The mass analyzer is a crucial component of the mass spectrometer. In the ionization chamber, the vaporized sample is bombarded with a high-energy electron beam to generate a radical cation and further fragment into neutral molecules, radicals, and cations. A series of negatively charged accelerator plates accelerate the cations into the mass analyzer. The mass analyzer separates ions according to their mass-to-charge (m/z) ratios and then directs them to the detector. The common types of mass...
High-Resolution Mass Spectrometry (HRMS)01:15

High-Resolution Mass Spectrometry (HRMS)

The resolution of a mass spectrometer depends on the efficiency of separating ions with different ion masses. The mass of an atom is approximated to the sum of the masses of protons and neutrons inside, considering the masses of protons and neutrons as equal. However, the masses of the proton (1.6726 × 10−24 g) and neutron (1.6749 × 10−24 g) are not truly equal. There is a minor error in the expression of atomic masses relative to the simplest atom of hydrogen. For example, the mass of helium...
2D NMR: Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC)01:19

2D NMR: Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC)

Heteronuclear single-quantum correlation spectroscopy (HSQC) is a 2D NMR technique that reveals one-bond correlations between hydrogen and a heteronucleus. The HSQC experiment is similar to the heteronuclear correlation experiment (HETCOR) but is more sensitive. In the HSQC spectrum, the proton chemical shift is plotted on the horizontal F2 axis, while the 13C chemical shift is plotted on the vertical F1 axis. The corresponding proton and 13C spectra are also shown. The HSQC contour plot does...
Mass Spectrometry: Molecular Fragmentation Overview01:20

Mass Spectrometry: Molecular Fragmentation Overview

The ionization of a molecule into a molecular ion inside the mass spectrometer causes instability in the molecule's structure due to the loss of an electron. This eventually leads to the fragmentation or breaking of some bonds in the molecule. The fragmentation occurs predominantly at specific bonds to yield relatively stable fragments.
One type of fragmentation pattern is the cleavage of a single bond in the molecular ion. The cleavage leads to a radical and a cation. The cleavage can occur at...
Atomic Radii and Effective Nuclear Charge03:08

Atomic Radii and Effective Nuclear Charge

The elements in groups of the periodic table exhibit similar chemical behavior. This similarity occurs because the members of a group have the same number and distribution of electrons in their valence shells.

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Related Experiment Video

Updated: May 31, 2026

Setting Limits on Supersymmetry Using Simplified Models
07:46

Setting Limits on Supersymmetry Using Simplified Models

Published on: November 15, 2013

Identifying multiquark hadrons from heavy ion collisions.

Sungtae Cho1, Takenori Furumoto, Tetsuo Hyodo

  • 1Institute of Physics and Applied Physics, Yonsei University, Seoul 120-749, Korea.

Physical Review Letters
|June 25, 2011
PubMed
Summary

Identifying exotic hadrons is challenging. Studying their production in heavy ion collisions reveals their structure, with yields differing significantly for multiquark states versus hadronic molecules.

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Last Updated: May 31, 2026

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07:46

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Area of Science:

  • Nuclear Physics
  • Particle Physics
  • Hadron Spectroscopy

Background:

  • Identifying hadrons with multiquark components or exotic quantum numbers is a significant challenge in hadronic physics.
  • Understanding hadron structure is crucial for advancing fundamental physics theories.

Purpose of the Study:

  • To investigate the production of exotic hadrons in relativistic heavy ion collisions.
  • To determine if hadron production yields can elucidate the structure of exotic hadrons.

Main Methods:

  • Utilizing the coalescence model for hadron production.
  • Analyzing the expected yields of exotic hadrons based on their structural properties (compact multiquark states vs. loosely bound hadronic molecules).

Main Results:

  • Exotic hadron yields are sensitive to their internal structure.
  • Compact multiquark states are predicted to have yields an order of magnitude smaller than nonexotic hadrons.
  • Loosely bound hadronic molecules are predicted to have yields 2 times larger than nonexotic hadrons.

Conclusions:

  • Relativistic heavy ion collisions offer a viable method for identifying exotic hadrons.
  • Experimental measurements of exotic hadron production can distinguish between different structural models.
  • Newly proposed heavy exotic states may be detectable in current or near-future experiments.