J/psi Sau was part of the team led by
Samuel C.C. Ting at MIT who discovered the
J/psi particle in 1974, The MIT team where Sau Lan Wu was a postdoc at the time took advantage of the
Alternating Gradient Synchrotron accelerator at
Brookhaven National Laboratory with high-intensity proton beams, which bombarded a stationary target to produce showers of particles that were detected by particle detectors. They discovered a strong peak in electron-positron
Invariant mass at an energy of 3.1 billion electron volts (
GeV). This led them to suspect that they had discovered a new stable particle decaying into electron-positron pairs, the same one found by Richter at the
SPEAR collider in the
SLAC National Accelerator Laboratory.
Gluon Wu was a key contributor to the discovery of the
gluon, a particle that binds, or glues, quarks together to form protons and neutrons. For her effort, Sau and her collaborators were awarded the 1995
European Physical Society High Energy and Particle Physics Prize. The smoking gun signature proving the existence of the gluon were the so-called ‘three
jet events’ occurring in electron-positron annihilation into a quark-antiquark pair, where an additional gluon is radiated from one of the quarks, creating the third jet. In the late 1970s Wu joined the
TASSO Collaboration that operated at the
PETRA accelerator at
DESY. In 1979 she published a paper with George Zobernig on a method of three-jet analysis in electron-positron annihilation, that was used in the following publication with the entire TASSO Collaboration, regarded as the first evidence of a gluon.
Higgs boson Wu’s team in Wisconsin was the first American group to join the
ATLAS Collaboration at
CERN, in 1993, however, her hunt for the Higgs Boson had started earlier at the
Large Electron–Positron (LEP) Collider also at
CERN. Together with other scientists at LEP they observed a number of Higgs boson candidates, but the observation was not statistically significant and they were only able to set a lower limit on the mass of the hypothetical Higgs Boson particle at 114.4 GeV (at the 95% confidence level). In 2000 CERN had shut the LEP collider so that the
Large Hadron Collider could be built in its place. On July 4, 2012, following the immense efforts of the
ATLAS and
CMS Collaborations, CERN announced the
discovery of a boson consistent with the predicted characters of Higgs boson with a mass of 125 GeV. This was a statistically significant discovery at the level of 5-sigma, a term meaning that the odds it occurred by chance are less than 1 in 3.5 million. This discovery completes the
Standard Model of particle physics which explains most of the phenomena in the visible
Universe. Wu is credited as a significant contributor to the discovery with her Wisconsin's group work on the two key decay channels that led to the discovery of the Higgs boson, the decay of the Higgs boson into two gamma-rays (H→ɣɣ), and the decay of the Higgs boson into four
leptons (H→ZZ*→4ℓ).
PhD Students Sau Lan Wu has mentored 65 PhD students and several became successful academics themselves. ==Honors==