## Search Result

### Search Conditions

Years
All Years
for journal 'PTP'
author 'N.* Hashimoto' : 11
total : 11

### Search Results : 11 articles were found.

1. Progress of Theoretical Physics Vol. 55 No. 5 (1976) pp. 1504-1513 : (5)
Finite-Energy Sum Rules and Evidence for Rapid Rise of ${\pi}p$ and $pp$ Total Cross Sections
Tadashi Miyakoshi, Akira Kanazawa and Noboru Hashimoto
2. Progress of Theoretical Physics Vol. 59 No. 3 (1978) pp. 804-816 : (4)
The Deuteron Break-Up Effect in the Two-Step Process
Naoki Hashimoto
3. Progress of Theoretical Physics Vol. 59 No. 4 (1978) pp. 1245-1260 : (4)
The $(p, d)$ $(d, t)$ Process in Strong $(p, t)$ Reactions
Naoki Hashimoto and Mitsuji Kawai
4. Progress of Theoretical Physics Vol. 59 No. 5 (1978) pp. 1562-1573 : (4)
The Finite-Range Effect in the $(p, d) (d, t)$ Process
Naoki Hashimoto
5. Progress of Theoretical Physics Vol. 61 No. 1 (1979) pp. 151-164 : (5)
Two-Component Model and Geometric Picture for High Energy $P$-$P$ Collisions
Noboru Hashimoto
6. Progress of Theoretical Physics Vol. 61 No. 2 (1979) pp. 466-474 : (4)
The Deuteron Break-Up Effect in the Two-Step Process. II
Naoki Hashimoto
7. Progress of Theoretical Physics Vol. 62 No. 5 (1979) pp. 1307-1314 : (5)
Geometric Bremsstrahlung Model for Leading Proton Spectrum and Associated Multiplicity Distributions in High Energy $P$-$P$ Collisions
Noboru Hashimoto
8. Progress of Theoretical Physics Vol. 63 No. 2 (1980) pp. 730-733 : (5)
A Geometric Bremsstrahlung Model with “Random Walk” Picture for Leading Particle
Noboru Hashimoto
9. Progress of Theoretical Physics Vol. 63 No. 3 (1980) pp. 858-871 : (4)
The Deuteron Break-Up Effect of the Two-Step Process. III
Naoki Hashimoto
10. Progress of Theoretical Physics Vol. 66 No. 5 (1981) pp. 1664-1673 : (4)
An Approach for the DWBA Calculation of the Two-Nucleon Transfer ($p$, $t$) Reaction
Naoki Hashimoto
11. Progress of Theoretical Physics Vol. 77 No. 2 (1987) pp. 419-426 : (5)
A Possible Interpretation of the $\langle p_t \rangle$-$\langle N \rangle$ Correlation in the Constituent Hydrodynamical model
Noboru Hashimoto