78. L. Gao, K. Takayama, H. Tajima, T. M. Doi, and H. Liang, "Thermal liquid-gas phase transition in a quasi-one-dimensional dipolar Fermi gas", arXiv:2512.09252 [cond-mat.quant-gas]
77. H. Tajima, H. Nagao, K. Tanaka, H. Nishikawa, E. Murakami, A. Ida, and M. Watanabe, "Optimal control approach to Olympic weightlifting exercise: Minimal model of the snatch pull," arXiv:2510.19841[physics.gen-ph]
76. H. Tajima, E. Nakano, and K. Iida, "Tunable Fujita-Miyazawa-Type Three-Body Force in Ultracold Atoms," arXiv:2505.19117 [cond-mat.quant-gas]
75. H. Funaki, Y. Sekino, H. Tajima, S. Kisaka, N. Yasutake, and M. Matsuo "Gyromagnetic Angular Momentum Conversion in Neutron Stars," arXiv:2503.06068 [astro-ph.HE]
<2025>
74. T. Zhang, H. Tajima, and M. Tachibana, "Schwinger-Keldysh approach to tunneling transport at a hadron-quark interface," Physical Review D 112,123031 (2025). arXiv:2506.09725 [nucl-th]
73. Y. Guo, T. Naito, H. Tajima, and H. Liang, "Quartet correlations near the surface of N=Z nuclei," Physical Review C 112, 024310 (2025). arXiv:2503.07051 [nucl-th]
72. H. Tajima, K. Iida, T. Kojo, and H. Liang, "Tripling Fluctuations and Peaked Sound Speed in Fermionic Matter," Physical Review Letters 135, 042701 (2025). (Open Access) arXiv:2412.04971 [hep-ph] [press release プレスリリース]
71. Y. Sekino, Y. Ominato, H. Tajima, S. Uchino, and M. Matsuo, "Thermomagnetic anomalies in quantum magnon transport caused by tunable junction geometries in cold atomic systems," Physical Review A 111, 033312 (2025). arXiv:2412.10147 [cond-mat]
70. H. Tajima, H. Moriya, T. Naito, W. Horiuchi, E. Nakano, and K. Iida, "Polaronic neutron in dilute α matter: A p-wave Bose polaron," Physical Review C 111, 025802 (2025). arXiv:2408.15043 [nucl-th]
<2024>
69. Y. Sekino, Y. Ominato, H. Tajima, S. Uchino, and M. Matsuo, "Thermomagnetic Anomalies by Magnonic Criticality in Ultracold Atomic Transport," Physical Review Letters 133, 163402 (2024). (Open Access) arXiv:2312.04280 [cond-mat.quant-gas]
68. T. Zhang, Y. Guo, H. Tajima, and H. Liang, "Probling goldstino excitation through the tunneling transport in a Bose-Fermi mixture with explicitly broken supersymmetry," Physical Review B 110, 064512 (2024). arXiv:2403.14524 [cond-mat.quant-gas]
67. H. Tajima, K. Iida, and H. Liang, "Non-relativistic trace anomaly and equation of state in dense fermionic matter," Physical Review C 109, 055203 (2024). (Open Access) arXiv:2402.04960 [hep-ph]
66. H. Tajima, Y. Sekino, D. Inotani, A. Dohi, S. Nagataki, and T. Hayata, "Non-Hermitian p-wave superfluid and effects of the inelastic three-body loss in a one-dimensional spin-polarized Fermi gas," Physical Review Research 6, 023060 (2024). (Open Access) arXiv:2312.15724 [cond-mat.quant-gas]
65. H. Tajima, H. Aoki, A. Perali, and A. Bianconi, "Emergent Fano-Feshbach resonance in two-band superconductors with an incipient quasi-flat band: Enhanced critical temperature evading particle-hole fluctuations," Physical Review B 109, L140504 (2024). arXiv:2402.06454 [cond-mat.supr-con]
64. H. Tajima, H. Moriya, W. Horiuchi, E. Nakano, and K. Iida, "Polaronic protons and diproton clustering in neutron-rich matter," Physics Letters B 851, 138567 (2024). (Open Access) arXiv:2304.00535 [nucl-th]
63. T. Zhang, H. Tajima, and H. Liang, "Magnonic spin-current shot noise in an itinerant Fermi gas," Physical Review Applied 21, L031001 (2024). arXiv:2311.12383 [cond-mat.quant-gas]
62. H. Tajima, H. Moriya, W. Horiuchi, E. Nakano, and K. Iida, "Intersections of ultracold atomic polarons and nuclear clusters: How is a chart of nuclides modified in dilute neutron matter?," AAPPS Bulletin 34, 9 (2024). (Open Access) arXiv:2310.19422 [nucl-th]
61. Y. Guo and H. Tajima, "Medium-induced bosonic clusters in a Bose-Fermi mixture: Towards simulating cluster formations in neutron-rich matter," Physical Review A 109, 013319 (2024). arXiv:2308.04738 [cond-mat.quant-gas]
<2023>
60. H. Tajima, H. Funaki, Y. Sekino, N. Yasutake, and M. Matsuo, "Exploring 3P0 superfluid in dilute spin-polarized neutron matter," Physical Review C 108, L052802 (2023). arXiv:2305.08690 [nucl-th]
59. T. Zhang, D. Oue, H. Tajima, M. Matsuo, and H. Liang "Spin transport between polarized Fermi gases near the ferromagnetic phase transition," Physical Review B 108, 155303 (2023). arXiv:2306.13536 [cond-mat.quant-gas]
58. Y. Guo and H. Tajima, "Cooper pairing and tripling in one-dimensional spinless fermions with attractive two- and three-body forces," Physical Review A 108, 043303 (2023). arXiv:2308.04737 [cond-mat.quant-gas]
57. H. Sakakibara, H. Tajima, and H. Liang, "Finite-range effect in the two-dimensional density-induced BCS-BEC crossover", Progress of Theoretical and Experimental Physics 2023, 083I02 (2023) (Open Access) arXiv:2306.02127 [cond-mat.quant-gas]
56. Y. Guo, H. Tajima, T. Hatsuda, and H. Liang, "BCS-BCS crossover between atomic and molecular superfluids in a Bose-Fermi mixture," Physical Review A 108, 023304 (2023). arXiv:2302.04617 [cond-mat.quant-gas]
55. H. Sakakibara, H. Tajima, and H. Liang, "Brueckner G-matrix approach to two-dimensional Fermi gases with the finite-range attractive interaction", Physical Review A 107, 053313 (2023). arXiv:2302.03446 [cond-mat.quant-gas]
54. T. Zhang, H. Tajima, Y. Sekino, S. Uchino, and H. Liang, "Dominant Andreev Reflection through Non-Linear Radio-Frequency Transport," Communications Physics 6, 86 (2023). (Open Access) arXiv:2204.01356 [cond-mat.quant-gas]
53. Y. Sekino, H. Tajima, and S. Uchino, "Spin conductivity spectrum and spin superfluidity in a binary Bose mixture," Physical Review Research 5, 023058 (2023). (Open Access) arXiv:2301.03031 [cond-mat.quant-gas]
52. H. Tajima, Y. Sekino, D. Inotani, A. Dohi, S. Nagataki, and T. Hayata, "Non-Hermitian topological Fermi superfluid near the p-wave unitary limit," Physical Review A 107, 033331 (2023). arXiv:2212.11633 [cond-mat.quant-gas]
51. H. Tajima, D. Oue, M. Matsuo, and T. Kato, "Nonequilibrium noise as a probe of pair-tunneling transport in the BCS-BEC Crossover," PNAS Nexus 2, pgad045 (2023). (Open Access) arXiv:2202.03873 [cond-mat.quant-gas] [press release プレスリリース]
50. Y. Guo and H. Tajima, "Competition between pairing and tripling in one-dimensional fermions with coexistent s- and p-wave interactions," Physical Review B 107, 024511 (2023). arXiv:2210.07042 [cond-mat.quant-gas]
49. H. Tajima, S. Tsutsui, T. M. Doi, and K. Iida, "Density-Induced Hadron-Quark Crossover via the Formation of Cooper Triples," Symmetry 15, 333 (2023). (Open Access) arXiv:2211.14194 [nucl-th]
<2022>
48. H. Tajima, H. Moriya, W. Horiuchi, K. Iida, and E. Nakano, "Resonance-to-bound transition of 5He in neutron matter and its analogy with heteronuclear Feshbach molecule," Physical Review C 106, 045807 (2022). arXiv:2207.13907 [nucl-th]
47. Y. Guo and H. Tajima, "Stability against three-body clustering in one-dimensional spinless p-wave fermions," Physical Review A 106, 043310 (2022). arXiv:2208.03654 [cond-mat.quant-gas]
46. H. Tajima and H. Liang, "Role of the effective range in the density-induced BEC-BCS crossover," Physical Review A 106, 043308 (2022). arXiv:2206.12599 [cond-mat.quant-gas]
45. Y. Sekino, H. Tajima, and S. Uchino, ''Optical spin conductivity in ultracold quantum gases," Physical Review Research 4, 043014 (2022). (Open Access)
44. H. Tajima, D. Oue, and M. Matsuo, "Multi-Particle Tunneling Transport at Strongly-Correlated Interfaces," Physical Review A 106, 033310 (2022). arXiv:2110.11701 [cond-mat.quant-gas]
43. D. Kagamihara, R. Sato, K. Manabe, H. Tajima, and Y. Ohashi, "Isothermal compressibility and effects of multi-body molecular interactions in a strongly interacting ultracold Fermi gas," Physical Review A 106, 033308 (2022). arXiv:2206.02406 [cond-mat.quant-gas]
42. Y. Guo, H. Tajima, and H. Liang, "Biexciton-like quartet condensates in an electron-hole liquid," Physical Review Research 4, 023152 (2022). (Open Access) arXiv:2201.03031[cond-mat.str-el.]
41. H. Tajima, S. Tsutsui, T. M. Doi, and K. Iida, "Cooper triples in attractive three-component fermions: Implication for hadron-quark crossover," Physical Review Research, 4, L012021 (2022). (Open Access)
40. Y. Guo, H. Tajima, and H. Liang, "Cooper quartet correlations in infinite symmetric nuclear matter," Physical Review C, 105, 024317 (2022). arXiv:2112.05349 [nucl-th]
39. H. Tajima, Y. Sekino, and S. Uchino, "Optical spin transport theory of spin-1/2 topological Fermi superfluids," Physical Review B, 105, 064508 (2022). arXiv:2109.14505 [cond-mat.quant-gas]
38. K. Ochi, H. Tajima, K. Iida, and H. Aoki, ''Resonant pair-exchange scattering and BCS-BEC crossover in a system composed of dispersive and heavy incipient bands: a Feshbach analogy," Physical Review Research 4, 013032 (2022). (Open Access)
<2021>
37. H. Moriya, H. Tajima, W. Horiuchi, K. Iida, and E. Nakano, ''Binding two and three α particles in cold neutron matter," Physical Review C 104, 065801 (2021). arXiv:2106.14469 [nucl-th]
36. H. Tajima, S. Tsutsui, T. M. Doi, and K. Iida, "Three-body crossover from a Cooper triple to a bound trimer state in three-component Fermi gases near a triatomic resonance," Physical Review A 104, 053328 (2021). arXiv:2107.13232 [cond-mat.quant-gas]
35. T. Hata, E. Nakano, K. Iida, H. Tajima, and J. Takahashi, ''Dissipation-relaxation dynamics of a spin-1/2 particle with a Rashba-type spin-orbit coupling in an ohmic heat bath," Physical Review B 104, 144424 (2021). arXiv:2108.06465 [cond-mat.stat-mech]
34. S. Akagami, H. Tajima, and K. Iida, "Condensation of Cooper triples," Physical Review A 104, L041302 (2021). arXiv:2102.03701 [cond-mat.quant-gas]
33. H. Tajima, S. Tsutsui, T. M. Doi, and K. Iida, "Unitary p-wave Fermi gas in one dimension," Physical Review A 104, 023319 (2021). arXiv:2106.12909 [cond-mat.quant-gas]
32. T. M. Doi, H. Tajima, and S. Tsutsui, "Complex Langevin study for polarons in a one-dimensional two-component Fermi gas with attractive contact interactions," Physical Review Research 3, 033180 (2021). (Open Access) arXiv:2105.11072 [cond-mat.quant-gas]
31. J. Takahashi, H. Tajima, E. Nakano, and K. Iida, "Extracting non-local inter-polaron interactions from collisional dynamics," Physical Review A 103, 043334 (2021) arXiv:2011.07911 [cond-mat.quant-gas]
30. H. Tajima, J. Takahashi, S. I. Mistakidis, E. Nakano, and K. Iida, "Polaron problems in ultracold atoms: Role of a Fermi sea across different spatial dimensions and quantum fluctuations of a Bose medium," Atoms 9, 18 (2021). (Open Access) arXiv:2101.07643 [cond-mat.quant-gas] [Selected for Editors' Choice]
29. K. Nishimura, E. Nakano, K. Iida, H. Tajima, T. Miyakawa, and H. Yabu, "Ground state of the polaron in an ultracold dipolar Fermi gas," Physical Review A 103, 033324 (2021). arXiv:2010.15558 [cond-mat.quant-gas]
28. S. Akagami, K. Okada, and H. Tajima, "Parametric Excitation in Man-Powered Pirate Ship Ride "Rising-Go"," Scientific and Educational Reports of the Faculty of Science and Technology, Kochi University, 4, 5, (2021). (in Japanese, Open Access)
27. H. Tajima, M. Takeuchi, K. Okada, and Y. Fujino, "Projected-Based Learning for Buoyancy in Science Education: Can We Stand on Victoria Amazonica? " Scientific and Educational Reports of the Faculty of Science and Technology, Kochi University, 4, 3, (2021). (in Japanese, Open Access)
26. H. Tajima and K. Iida, "Non-Hermitian Ferromagnetism in an Ultracold Fermi Gas," Journal of the Physical Society of Japan, 90, 024004 (2021). arXiv:2004.05577 [cond-mat.quant-gas]
25. H. Tajima, Y. Hidaka, and D. Satow, ''Goldstino spectrum in an ultracold Bose-Fermi mixture with explicitly broken supersymmetry,'' Physical Review Research, 3, 013035 (2021). (Open Access)
<2020>
24. H. Tajima, Y. Yerin, P. Pieri, and A. Perali, "Mechanisms of screening or enhancing the pseudogap throughout the two-band Bardeen-Cooper-Schrieffer to Bose-Einstein condensate crossover," Physical Review B 102, 220504(R) (2020). arXiv:2009.04329 [cond-mat.supr-con]
23. H. Tajima, J. Takahashi, E. Nakano, and K. Iida, ''Collisional dynamics of polaronic clouds immersed in a Fermi sea,'' Physical Review A 102, 051302(R) (2020). arXiv:1912.12832 [cond-mat.quant-gas]
22. H. Tajima, S. Tsutsui, and T. M. Doi, "Low-Dimensional Fluctuations and Pseudogap in Gaudin-Yang Fermi Gases," Physical Review Research 2, 044331 (2020). (Open Access)
21. H. Tajima and F. Fujisawa, "Projectile Trajectory of Penguin's Faeces and Rectal Pressure Revisited," Scientific and Educational Reports of the Faculty of Science and Technology, Kochi University, 3, 3 (2020). (Open Access) (arXiv:2007.00926 [physics.bio-ph] ) RIKEN iTHEMS HOT TOPIC
20. Y. Sekino*, H. Tajima*, and S. Uchino, ''Mesoscopic spin transport between strongly interacting Fermi gases,'' Physical Review Research 2, 023152 (2020). [Selected for Editors' Suggestion] (Open Access) (* equal contribution) RIKEN iTHEMS Research News
19. Y. Ohashi, H. Tajima, and P. van Wyk, "BCS-BEC Crossover in Cold Atomic and in Nuclear Systems," Progress in Particle and Nuclear Physics 111, 103739 (2020) [Selected for the most downloaded articles of "Progress in Particle and Nuclear Physics" in 2019].
18. H. Tajima, A. Recati, and Y. Ohashi, "Spin-dipole mode in a trapped Fermi gas near unitarity," Physical Review A 101, 013610 (2020). arXiv:1909.11425[cond-mat.quant-gas]
<2019>
17. H. Tajima, T. Hatsuda, P. van Wyk, and Y. Ohashi, "Superfluid Phase Transitions and Effects of Thermal Pairing Fluctuations in Asymmetric Nuclear Matter," Scientific Reports 9, 18477 (2019). (Open Access)
16. Y. Yerin, H. Tajima, P. Pieri, and A. Perali, "Coexistence of giant Cooper pairs with a bosonic condensate and anomalous behavior of energy gaps in the BCS-BEC crossover of a two-band superfluid Fermi gas," Physical Review B 100, 104528 (2019). arXiv:1907.13344[cond-mat.supr-con]
15. H. Tajima, "Generalized Crossover in Interacting Fermions within the Low-Energy Expansion," Journal of the Physical Society of Japan, 88, 093001 (2019). arXiv:1902.11081 [cond-mat.quant-gas]
14. H. Tajima and P. Naidon, "Quantum chromodynamics (QCD)-like phase diagram with Efimov trimers and Cooper pairs in resonantly interacting SU(3) Fermi gases," New Journal of Physics, 21, 073051 (2019). (Open Access)
13. H. Tajima and S. Uchino, “Thermal crossover, transition, and coexistence in Fermi polaronic spectroscopies,” Physical Review A 99, 063606 (2019). arXiv:1812.05889 [cond-mat.quant-gas]
12. H. Tajima, Y. Yerin, A. Perali, and P. Pieri, "Enhanced critical temperature, pairing fluctuation effects, and BCS-BEC crossover in a two-band Fermi gas," Physical Review B 99, 180503(R) (2019).
<2018>
11. H. Tajima and Shun Uchino, “Many Fermi polarons at nonzero temperature,” New Journal of Physics 20, 073048 (2018). (Open Access)
10. H. Tajima, “Precursor of superfluidity in a strongly interacting Fermi gas with negative effective range,” Physical Review A 97, 043613 (2018).
9. P. van Wyk, H. Tajima, D. Inotani, A. Ohnishi, and Y. Ohashi, “Superfluid Fermi atomic gas as a quantum simulator for the study of the neutron-star equation of state in the low density region,” Physical Review A 97, 013601 (2018).
<2017>
8. M. Horikoshi, M. Koashi, H. Tajima, Y. Ohashi, and M. Kuwata-Gonokami, “Ground-state thermodynamic quantities of homogeneous spin-1/2 fermions from the BCS region to the unitarity limit,” Physical Review X 7, 041004 (2017). (Open Access)
7. H. Tajima, R. Hanai, and Y. Ohashi, “Spin susceptibility and effects of a harmonic trap in the BCS-BEC crossover regime of an ultracold Fermi gas,” Physical Review A 96, 033614 (2017).
6. D. Kharga, H. Tajima, D. Inotani, P. van Wyk, and Y. Ohashi, “Normal-state Properties of a Unitary Bose-Fermi Mixture: A Combined Strong-coupling Approach with Universal Thermodynamics,” Journal of the Physical Society of Japan, 86, 074302 (2017).
5. M. Ota, H. Tajima, R. Hanai, D. Inotani, and Y. Ohashi, “Local Photoemission Spectra and Effects of Spatial Inhomogeneity in the BCS-BEC-Crossover Regime of a Trapped Ultracold Fermi gas,” Physical Review A, 95, 053623 (2017).
4. H. Tajima, P. van Wyk, R. Hanai, D. Kagamihara, D. Inotani, M. Horikoshi, and Y. Ohashi, “Strong-coupling corrections to ground-state properties of a superfluid Fermi gas,” Physical Review A, 95, 043625 (2017).
<2016>
3. P. van Wyk, H. Tajima, R. Hanai, and Y. Ohashi, “Specific heat and effects of pairing fluctuations in the BCS-BEC-crossover regime of an ultracold Fermi gas,” Physical Review A 93, 013621 (2016).
2. H. Tajima, R. Hanai, and Y. Ohashi, “Strong-coupling corrections to spin susceptibility in the BCS-BEC-crossover regime of a superfluid Fermi gas,” Physical Review A 93, 013610 (2016).
<2015>
<2014>
1. H. Tajima, T. Kashimura, R. Hanai, R. Watanabe, and Y. Ohashi, “Uniform spin susceptibility and spin-gap phenomenon in the BCS-BEC-crossover regime of an ultracold Fermi gas,” Physical Review A, 89, 033617 (2014) (Selected for Kaleidoscope).
5. 田島裕之, 「ポーラロン描像から探る核物質の世界」, 日本物理学会誌 80 (8), 458 (2025).
4. 田島裕之, 仲野英司, 「ポーラロン」, 原子核研究 68 (2), 52 (2024).
3. 飯田圭, 鷹野正利, 田島裕之, 「中性子星は三体力が際立った「巨大な原子核」か」, 岩波書店「科学」, Science Journal KAGAKU, 92, (10) 931-936 (2022).
2. 田島裕之, 「量子シミュレータ」, 原子核研究, 66, (1) 44 (2021).
1. 大橋洋士, P. van Wyk, 田島裕之, 「フェルミ原子ガス超流動のBCS-BECクロスオーバー理論と中性子星状態方程式への挑戦」, 原子核研究, 61, 70 (2016).
13. Y. Sekino, H. Tajima, and S. Uchino, "Conductivity of Alternating Spin Currents in Ultracold Atomic Gases," JPS Conference Proceedings 38, 011019 (2023). (Open Access)
12. S. Akagami, H. Tajima, and K. Iida, "Possible condensation of Cooper triples," JPS Conference Proceedings 38, 011010 (2023). (Open Access) arXiv:2207.03326 [cond-mat.quant-gas]
11. H. Moriya, H. Tajima, W. Horiuchi, K. Iida, and E. Nakano, "Structure of two- and three-alpha systems in cold neutron matter," EPJ Web Conf. 260, 11045 (2022). arXiv:2112.07113 [nucl-th]
10. H. Tajima, P. Pieri, and A. Perali, "Hidden Pseudogap and Excitation Spectra in a Strongly Coupled Two-Band Superfluid/Superconductor," Condensed Matter 6, 8 (2021). (Open Access) [Highlighted on the main page of Condensed Matter]
9. H. Tajima, A. Perali, and P. Pieri, "BCS-BEC Crossover and Pairing Fluctuations in a Two Band Superfluid/Superconductor: A T Matrix Approach," Condensed Matter 5, 10 (2020). (Open Access)
8. H. Tajima and P. Naidon, “Multi-body correlations in SU(3) Fermi gases,” Journal of Low Temperature Physics 196, 163 (2019).
7. H. Tajima, T. Hatsuda, and Y. Ohashi, “Strongly Interacting Multi-component Fermions: From Ultracold Fermi Atomic Gas to Asymmetric Nuclear Matter in Neutron Stars,” Journal of Physics: Conference Series 969, 012003 (2018).
6. H. Tajima, P. van Wyk, R. Hanai, D. Kagamihara, D. Inotani, M. Horikoshi, and Y. Ohashi, “Zero-Temperature Properties of a Strongly Interacting Superfluid Fermi Gas in the BCS-BEC Crossover Region,” Journal of Low Temperature Physics 187, 677-684 (2017).
5. P. van Wyk, H. Tajima, R. Hanai, and Y. Ohashi, “Strong Coupling Effects on the Specific Heat of an Ultracold Fermi Gas in the Unitarity Limit,” Journal of Low Temperature Physics 183, 183-190 (2015).
4. H. Tajima, R. Hanai, and Y. Ohashi, “Spin susceptibility and effects of inhomogeneous strong pairing fluctuations in a trapped ultracold Fermi gas,” Journal of Low Temperature Physics 183, 175-182 (2015).
3. H. Tajima, R. Hanai, and Y. Ohashi, “Spin-gap phenomenon in a strongly interacting ultracold Fermi gas,” Journal of Physics: Conference Series 568, 012019 (2014).
2. H. Tajima, T. Kashimura, R. Hanai, R. Watanabe, and Y. Ohashi, “Spin-Gap Temperature in the BCS-BEC Crossover Regime of an Ultracold Fermi Gas,” JPS Conference Proceedings, 1, 012096 (2014).
1. H. Tajima, R. Hanai, R. Watanabe, and Y. Ohashi, “Spin Susceptibility and Strong Coupling Effects in an Ultracold Fermi Gas,” Journal of Low Temperature Physics, 175, 279-286 (2014).
2. H. Moriya, H. Tajima, W. Horiuchi, K. Iida, and E. Nakano, "Structure of few-alpha systems in cold neutron matter," RIKEN Accelerator Progress Report Vol. 55 (2021).
1. H. Tajima, "Maximum flying distance of penguin's faeces," Academist Journal (in Japanese), 18th August (2020).