1.1 Beta delayed alpha spectra from ⁸Li and ⁸B decays and the neutrino spectrum in ⁸B decay

1.2 Positron-neutrino correlation in the 0⁺-> 0⁺ decay of ³²Ar

1.3 Ionization spectra of 3 MeV protons and a-particles in silicon

1.4 Beta decay of ⁴⁰Ti and the efficiency of the ICARUS ⁴⁰Ar neutrino detector

1.5 Lineshape and efficiency determination for the 3 large NaI spectrometers

1.6 First measurements of the ⁴He(a ,g )⁸Be reaction with the new NaI setup

1.7 The b-a angular correlations in the decays of ⁸Li and ⁸B

1.8 Time reversal in neutron beta decay: The first run of emiT

1.9 Target development for the planned ⁷Be(p,g )⁸B experiment

1.10 Progress in development of apparatus and techniques for the ⁷Be(p,g ) experiment

1.11 Measurement of the PNC spin-rotation of cold neutrons in a liquid helium target

1.12 Development of a new rotating torsion balance

1.13 Progress with the measurement of Newton's constant G

1.14 Progress and results of the Rot-Wash torsion balance

1.15 Test of the Strong Equivalence Principle: does gravitational binding energy gravitate?

2.1 The neutral current detector project at SNO

2.2 The SNO data acquisition system

2.3 Overview and status of the SNO DAQ SHaRC software

2.4 Monitoring the SNO DAQ detector data stream

2.5 The SNO electronics production testing system

2.6 Status of the acrylic vessel for the Sudbury Neutrino Observatory

2.7 A compact 20 MeV gamma-ray source for energy calibration at the SNO

2.8 SAGE: The Russian American Gallium experiment

2.9 Model-independent approach to the solar neutrino problem

3.1 The giant-dipole resonance in hot Sn nuclei

3.2 Anomalous fission fragment anisotropies: quasifission or slow K-equilibration?

3.3 Why the standard methods of calculating fission rates are flawed at high spin

3.4 Light-charged particles from fusion-evaporation in the ¹⁹F + ¹⁸⁰Ta system

3.5 ¹⁹F + ¹⁸¹Ta: Fission fragment and evaporation residue measurements

3.6 Angular distributions of fission fragments from ⁴⁰Ca + ¹⁹²Os, ^natIr, ¹⁹⁴Pt and ¹⁹⁷Au

4.1 A scale-local approach to percolation theory

4.2 Ultra-relativistic heavy ion collision simulators: visualization and analysis

4.3 STAR computing requirements task force

4.4 STAR mock data challenge

4.5 STAR event-by-event physics

4.6 STAR TPC cosmic ray tests

4.7 NA49 event-by-event physics program

4.8 NA49 event by event physics: event characterization

4.9 NA49 DST production monitoring

4.10 Analysis of the Henon map using scaled correlation analysis

4.11 New algorithms for the generalization and optimization of scaled, dithered binning analysis

4.12 Further development of scale-local analysis

4.13 Position-momentum phase space filling and Bose-Einstein effects

4.14 Event simulation of high-order Bose-Einstein and Coulomb correlations for NA49 and STAR

4.15 Library of simulated STAR events with Bose-Einstein and Coulomb corrections

4.16 Development of a standard HBT analysis code for STAR

5.1 Charge exchange cross sections for 1.25 keV per carbon C₈^1- and C₆₀^1- ions

5.2 Statistical model for fragmentation of C₆₀ in collisions with hydrogen

5.3 Difference in stopping power between clusters and atoms from 20 to 150 keV/atom

6.1 Electronic equipment

6.2 VAX-based acquisition systems

6.3 Analysis and support system developments

6.4 Custom data acquisition electronics for the SNO NCD and emiT experiments

7.1 Van de Graaff accelerator operations and development

7.2 Booster operations

7.3 Tandem terminal ion source

7.4 Cryogenic operating experience

7.5 A better grease for helium refrigerator expansion engines