Differential cross section as a function of the PI0 angle.

Differential cross section as a function of T-TMIN, the squared four momentum transfer to the P PI0 system.

Differential cross section as a function of T-TMIN, the squared four momentum transfer to the P PI0 system.

Differential cross section as a function of T-TMIN, the squared four momentum transfer to the P PI0 system.

Differential cross section as a function of T-TMIN, the squared four momentum transfer to the P PI0 system.

Differential cross section as a function of T-TMIN, the squared four momentum transfer to the P PI0 system.

Differential cross section as a function of T-TMIN, the squared four momentum transfer to the P PI0 system.

Differential cross section as a function of T-TMIN, the squared four momentum transfer to the P PI0 system.

Differential cross section as a function of T-TMIN, the squared four momentum transfer to the P PI0 system.

Slope parameter of the DSIG/DT distribution as a function of energy.

Total cross section before and after the subtraction of the (DELTA+ OMEGA) contribution as a function of energy.

Total cross section for the final state DELTA+ OMEGAas a function of energy.

Differential cross section as a function of the (P PI0) mass.

Differential cross section as a function of the (P PI0) mass.

Differential cross section as a function of the (P PI0) mass.

Measurement of the proton structure function F2 at Q**2 = 8.0 GeV**2.

Measurement of the proton structure function F2 at Q**2 = 14.0 GeV**2.

Measurement of the proton structure function F2 at Q**2 = 27.0 GeV**2.

Measurement of the proton structure function F2 at Q**2 = 55.0 GeV**2.

Measurement of the proton total cross section for GAMMA* P scattering at Q**2 = 2.7 GeV.

Measurement of the proton total cross section for GAMMA* P scattering at Q**2 = 4.0 GeV.

Measurement of the proton total cross section for GAMMA* P scattering at Q**2 = 6.0 GeV.

Measurement of the proton total cross section for GAMMA* P scattering at Q**2 = 8.0 GeV.

Measurement of the proton total cross section for GAMMA* P scattering at Q**2 = 14.0 GeV.

Measurement of the proton total cross section for GAMMA* P scattering at Q**2 = 27.0 GeV.

Measurement of the proton total cross section for GAMMA* P scattering at Q**2 = 55.0 GeV.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 1.2 GeV and Q**2 = 2.7 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 1.2 GeV and Q**2 = 4.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 1.2 GeV and Q**2 = 6.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 1.2 GeV and Q**2 = 8.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 1.2 GeV and Q**2 = 14.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 1.2 GeV and Q**2 = 27.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 1.2 GeV and Q**2 = 55.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 3.0 GeV and Q**2 = 2.7 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 3.0 GeV and Q**2 = 4.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 3.0 GeV and Q**2 = 6.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 3.0 GeV and Q**2 = 8.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 3.0 GeV and Q**2 = 14.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 3.0 GeV and Q**2 = 27.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 3.0 GeV and Q**2 = 55.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 6.0 GeV and Q**2 = 2.7 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 6.0 GeV and Q**2 = 4.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 6.0 GeV and Q**2 = 6.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 6.0 GeV and Q**2 = 8.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 6.0 GeV and Q**2 = 14.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 6.0 GeV and Q**2 = 27.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 6.0 GeV and Q**2 = 55.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 11.0 GeV and Q**2 = 2.7 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 11.0 GeV and Q**2 = 4.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 11.0 GeV and Q**2 = 6.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 11.0 GeV and Q**2 = 8.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 11.0 GeV and Q**2 = 14.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 11.0 GeV and Q**2 = 27.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 11.0 GeV and Q**2 = 55.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 20.0 GeV and Q**2 = 2.7 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 20.0 GeV and Q**2 = 4.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 20.0 GeV and Q**2 = 6.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 20.0 GeV and Q**2 = 8.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 20.0 GeV and Q**2 = 14.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 20.0 GeV and Q**2 = 27.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 20.0 GeV and Q**2 = 55.0 GeV**2.

Cross section for the diffractive scattering process GAMMA* P --> DD X for a diffractive mass of 30.0 GeV and Q**2 = 2.7 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 0.28 to 2 GeV, to the total cross section for Q**2 = 2.7 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 0.28 to 2 GeV, to the total cross section for Q**2 = 4.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 0.28 to 2 GeV, to the total cross section for Q**2 = 6.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 0.28 to 2 GeV, to the total cross section for Q**2 = 8.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 0.28 to 2 GeV, to the total cross section for Q**2 = 14.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 0.28 to 2 GeV, to the total cross section for Q**2 = 27.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 0.28 to 2 GeV, to the total cross section for Q**2 = 55.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 2 to 4 GeV, to the total cross section for Q**2 = 2.7 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 2 to 4 GeV, to the total cross section for Q**2 = 4.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 2 to 4 GeV, to the total cross section for Q**2 = 6.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 2 to 4 GeV, to the total cross section for Q**2 = 8.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 2 to 4 GeV, to the total cross section for Q**2 = 14.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 2 to 4 GeV, to the total cross section for Q**2 = 27.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 2 to 4 GeV, to the total cross section for Q**2 = 55.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 4 to 8 GeV, to the total cross section for Q**2 = 2.7 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 4 to 8 GeV, to the total cross section for Q**2 = 4.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 4 to 8 GeV, to the total cross section for Q**2 = 6.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 4 to 8 GeV, to the total cross section for Q**2 = 8.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 4 to 8 GeV, to the total cross section for Q**2 = 14.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 4 to 8 GeV, to the total cross section for Q**2 = 27.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 4 to 8 GeV, to the total cross section for Q**2 = 55.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 8 to 15 GeV, to the total cross section for Q**2 = 2.7 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 8 to 15 GeV, to the total cross section for Q**2 = 4.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 8 to 15 GeV, to the total cross section for Q**2 = 6.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 8 to 15 GeV, to the total cross section for Q**2 = 8.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 8 to 15 GeV, to the total cross section for Q**2 = 14.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 8 to 15 GeV, to the total cross section for Q**2 = 27.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 8 to 15 GeV, to the total cross section for Q**2 = 55.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 15 to 25 GeV, to the total cross section for Q**2 = 2.7 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 15 to 25 GeV, to the total cross section for Q**2 = 4.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 15 to 25 GeV, to the total cross section for Q**2 = 6.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 15 to 25 GeV, to the total cross section for Q**2 = 8.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 15 to 25 GeV, to the total cross section for Q**2 = 14.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 15 to 25 GeV, to the total cross section for Q**2 = 27.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 15 to 25 GeV, to the total cross section for Q**2 = 55.0 GeV**2.

Ratio of the cross sections for diffractive scattering GAMMA* P --> DD X integrated over the diffractive mass 25 to 35 GeV, to the total cross section for Q**2 = 2.7 GeV**2.

Ratio of the total diffractive cross section observed to the total cross section.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 2.7 GeV**2 and BETA = 0.6522.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 2.7 GeV**2 and BETA = 0.2308.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 2.7 GeV**2 and BETA = 0.0698.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 2.7 GeV**2 and BETA = 0.0218.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 2.7 GeV**2 and BETA = 0.0067.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 2.7 GeV**2 and BETA = 0.0030.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 4.0 GeV**2 and BETA = 0.7353.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 4.0 GeV**2 and BETA = 0.3077.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 4.0 GeV**2 and BETA = 0.1000.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 4.0 GeV**2 and BETA = 0.0320.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 4.0 GeV**2 and BETA = 0.0099.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 4.0 GeV**2 and BETA = 0.0044.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 6.0 GeV**2 and BETA = 0.8065.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 6.0 GeV**2 and BETA = 0.4000.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 6.0 GeV**2 and BETA = 0.1429.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 6.0 GeV**2 and BETA = 0.0472.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 6.0 GeV**2 and BETA = 0.0148.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 6.0 GeV**2 and BETA = 0.0066.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 8.0 GeV**2 and BETA = 0.8475.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 8.0 GeV**2 and BETA = 0.4706.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 8.0 GeV**2 and BETA = 0.1818.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 8.0 GeV**2 and BETA = 0.0620.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 8.0 GeV**2 and BETA = 0.0196.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 8.0 GeV**2 and BETA = 0.0088.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 14.0 GeV**2 and BETA = 0.9067.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 14.0 GeV**2 and BETA = 0.6087.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 14.0 GeV**2 and BETA = 0.2800.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 14.0 GeV**2 and BETA = 0.1037.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 14.0 GeV**2 and BETA = 0.0338.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 14.0 GeV**2 and BETA = 0.0153.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 27.0 GeV**2 and BETA = 0.9494.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 27.0 GeV**2 and BETA = 0.7500.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 27.0 GeV**2 and BETA = 0.4286.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 27.0 GeV**2 and BETA = 0.1824.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 27.0 GeV**2 and BETA = 0.0632.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 27.0 GeV**2 and BETA = 0.0291.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 55.0 GeV**2 and BETA = 0.9745.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 55.0 GeV**2 and BETA = 0.8594.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 55.0 GeV**2 and BETA = 0.6044.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 55.0 GeV**2 and BETA = 0.3125.

The diffractive structure function F2(NAME=D3) multiplied by X(NAME=POMERON), for Q**2 = 55.0 GeV**2 and BETA = 0.1209.

The diffractive structure function of the proton multiplied by X(NAME=POMERON) at the point X(POMERON) = 0.01 and Q**2 = 2.7 GeV**2.

The diffractive structure function of the proton multiplied by X(NAME=POMERON) at the point X(POMERON) = 0.01 and Q**2 = 4.0 GeV**2.

The diffractive structure function of the proton multiplied by X(NAME=POMERON) at the point X(POMERON) = 0.01 and Q**2 = 6.0 GeV**2.

The diffractive structure function of the proton multiplied by X(NAME=POMERON) at the point X(POMERON) = 0.01 and Q**2 = 8.0 GeV**2.

The diffractive structure function of the proton multiplied by X(NAME=POMERON) at the point X(POMERON) = 0.01 and Q**2 = 14.0 GeV**2.

The diffractive structure function of the proton multiplied by X(NAME=POMERON) at the point X(POMERON) = 0.01 and Q**2 = 27.0 GeV**2.

The diffractive structure function of the proton multiplied by X(NAME=POMERON) at the point X(POMERON) = 0.01 and Q**2 = 55.0 GeV**2.