WIMP miracle

1. ★   Dark matter models     

1. ★   Direct detection of dark matter

1. ★   Collider searches for dark matter

1. ★   Indirect detection of dark matter

1. ✦  “Hydrogen Axion Star”, with J. Berger and V. Barger, arXiv:1612.00438
   

2. ✦  “The Scale of Dark QCD”, with P. Schwaller, arXiv:1306.4676
   

3. ✦  “Weakly Interacting Stable Pions”, with R. J. Hill, arXiv:1005.0008
   

1. ✦  “Resonant Dark Matter”, with P. J. Fox, arXiv:0909.2900

1. ✦  “Dark matter searches with a mono-Z′ jet”, with J. Bourbeau and T. Lin, arXiv:1504.01395
   

2. ✦  “Fermion Portal Dark Matter”, with J. Berger, arXiv:1308.0612
   

3. ✦  “Searches with Mono-Leptons”, with T. M.P. Tait, arXiv:1208.4361
   

4. ✦  “Tevatron at the Frontier of Dark Matter Direct Detection”, with P. J. Fox, R. Harnik, arXiv:1005.3797

1. ✦  “Supersymmetric Resonant Dark Matter”, with J. Berger and S. Lu, arXiv:1706.09974

2. ✦  “Galactic neutrinos in the TeV to PeV range”, with M. Ahlers, V. Barger and R. Lu, arXiv:1505.03156
   

3. ✦  “Icecube Neutrino and Decaying Dark Matter”, with R. Lu and J. Salvado, arXiv:1311.5864
   

Dark Matter definitely points to new physics beyond the Standard Model. I am interested in all possible novel dark matter models with specific focuses on the cold dark matter candidates due to the “WIMP miracle”. I have also investigated my efforts on phenomenological studies of dark matter from three different methods including: direction detection, collider, and indirect detection.