Here a small list of applications using ROOT:
- ROOT at GSI [2]
- The PHOBOS Analysis Toolkit [3]
- The Rosebud Package [4]
- ROOT used for event monitoring in the Finuda experiment [5]
- gh2root, generates C++ classes to convert Geant3 KINE/HITS to ROOT [6]
- Direct Photons produced at RHIC energies [7]
- AliRoot, the ALICE simulation, reconstruction and analysis framework [8]
- MARaBOU [9]. MBS and ROOT Based Online/Offline Utility (screendumps [10])
- JSF, the ACFA Joint Linear Collider Study Framework [11], contact person akiya.miyamoto@kek.jp [12]
- Pluto++, A Simulation Package for HADES [13], contact person Marios A. Kagarlis [14]
- AstroROOT, the satellite INTEGRAL and the use of ROOT at ISDC [15], contact person Reiner Rohlfs [16]
- Monte-Carlo of propagation of optical photons, based upon TGeo [17], contact person Francois-Xavier Gentit [18]
- HERA-B analysis framework CLUE [19], contact person Thorsten Glebe [20]
- Gravitational waves data analysis environment [21], contact person Damir Buskulic [22]
- Java Interface for reading ROOT files and ROOT DIM for JAS [23], contact person Tony Johnson [24]
- Use of ROOT in the SASY experiment [25], contact person Khamit Ardashev [26]
- The Linear Collider Detector (LCD) simulation and analysis tools [27], contact person Toshinori Abe [28]
- RTLTree: Access to ROOT-Trees from RTLinux applications [29], contact person Oliver Kuehlert [30]
- The Go4 GSI system [31], contact person Essel Dr.Hans-Georg [32]
- The ROOT interface to Mathematica [33], contact person Matthew Langston [34]
- MARS, Magic Analysis and Reconstruction Software [35], contact person: Thomas Bretz [36]
- MC-TESTER, a package built on root, that makes semi-automatic comparisons of Monte-Carlo generators [37], contact person: Piotr Golonka [38]
- THERMUS, a Thermal Model Package for ROOT [39], contact person: Mark Horner [40]
- IMV, Neutrino Interaction Model Validator [41], contact person: Costas Andreopoulos [42]
- GENIE, Neutrino Monte-Carlo Generator [43], contact person Costas Andreopoulos [42]
- KaliVeda, ROOT-based simulation/analysis tools developed for charged particle multidetectors such as INDRA, and the study of nuclear multi-fragmentation [44], contact person: John Frankland [45]
- ROME, a framework generator for event based data analysis [46], contact person: Matthias Schneebeli [47] or Stefan Ritt [48]
- RooCARDS, a C++/ROOT interface to SNNS [49], contact person: Yibin Pan [50]
- TDSP, a C++ based simulation tool for signals and communication [51], contact person: Peter Jung [52]
- MEGAlib, the Medium Energy Gamma-ray Astronomy library [53], contact person: Andreas Zoglauer [54]
- focus solar [55], an example of the use of ROOT in business applications. ROOT is used for processing of weather satellite imagery, contact person: Sibylle Petrak [56]
- Forex Automaton [57], a financial forecasting research project, contact person: Mikhail Kopytine [58]
- DAQ: a ROOT based Data AcQuisition platform for debugging embedded devices [59], contact person: Paolo Pagano [60]
- HRS Computing, an example of the use of ROOT in nonlinear optics [61], contact person: Stefano Carrazza [62]
- G4beamline [63] is a program for the simulation of charged particle beams, contact person: Tom Roberts [64]
- HierarchalFit [65] fit with parameters being not on an equal footing, contact person: Francois-Xavier Gentil [66]
- Fracion [67] is an application written in ROOT, and helps you scan binary images for fractals. While scanning the image, Fracion saves any interested information in a ROOT file, such that one can analyze the data, contact person Mihai Niculescu [68]
If you want to be added to this list we are pleased to add a pointer to your web page (send a mail to rootdev [69]).