A one-dimensional quantum many-body system consisting of particles confined in a harmonic potential and subject to finite-range two-body and three-body inverse-square interactions is introduced. The range of the interactions is set by truncation beyond a number of neighbors and can be tuned to interpolate between the Calogero-Sutherland model and a system with nearest and next-nearest neighbors interactions discussed by Jain and Khare. The model also includes the Tonks-Girardeau gas describing impenetrable bosons as well as a novel extension with truncated interactions. While the ground state wavefunction takes a truncated Bijl-Jastrow form, collective modes of the system are found in terms of multivariable symmetric polynomials. We numerically compute the density profile, one-body reduced density matrix, and momentum distribution of the ground state as a function of the range r and the interaction strength.Quantum systems with inverse-square interactions play a prominent role across a wide variety of fields. They are ubiquitous in many-body physics where they have facilitated the understanding of fractional quantum Hall effect and generalized exclusion statistics 1-3 . Historically, their study played a key role in understanding the integrability of systems with long-range interactions and the development of asymptotic Bethe ansatz [4][5][6] . Following the pioneering works by Dyson 7 and Sutherland 4 , their connection to random matrix theory has remained a fruitful line of research 8,9 . They have also found applications in blackhole physics 10 and conformal field theory [11][12][13][14][15][16] . More recently, they have been explored in the context of quantum decay of many-particle unstable systems 17 and in the study of thermal machines in quantum thermodynamics 18,19 .In the one-dimensional continuum space, a many-body system with inverse-square interactions is generally known as the Calogero-Sutherland model (CSM) 4,20,21 . The CSM occupies a privileged status among exactly-solvable models as a source of inspiration [22][23][24] . In its original form, it describes one-dimensional bosons with inverse-square interactions of strength λ that exhibit a universal Luttinger liquid behavior 11 . Under harmonic confinement, this interacting Bose gas is equivalent to an ideal gas of particles with generalized exclusion statistics 3 . It is then referred to as the rational Calogero gas. Its connection with random matrix theory is manifested in the ground-state probability density distribution, which takes the form of the joint probability density for the eigenvalues of the Gaussian β -ensemble with Dyson index β = 2λ 4,9 . While the CSM has shed new light on interacting systems, it can be mapped to a set of noninteracting harmonic oscillators 25,26 . Further, the CSM can be extended to account for fermionic statistics, internal degrees of freedom, and additional interactions, e.g., of Coulomb type 25,26 . In particular, when the range of the interaction is truncated to nearest-neighbors, the system is quasi-exactl...
