The dispersed matter planet project sample – detection limits, occurrence rates, and new planets

Matthew R. Standing; John R. Barnes; Carole A. Haswell; Adam T. Stevenson; João P. Faria; Erwan Quintin; Zachary O. B. Ross; Luca Fossati; James S. Jenkins; Douglas Alves; Daniel Staab

doi:10.1093/mnras/stag370

The dispersed matter planet project sample – detection limits, occurrence rates, and new planets

Matthew R. Standing^*
, John R. Barnes
, Carole A. Haswell
, Adam T. Stevenson
, João P. Faria
, Erwan Quintin
, Zachary O. B. Ross
, Luca Fossati
, James S. Jenkins
, Douglas Alves
, Daniel Staab

^*Corresponding author for this work

Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

8 Downloads (Pure)

Abstract

Dispersed matter planet project (DMPP) is a radial velocity survey that aims to detect planets around stars exhibiting anomalous activity signatures, consistent with the presence of close-in evaporating planets. Here, we report the discovery of seven new planetary signals in five different systems: DMPP-2 c & d, HD 67200/DMPP-6 b & c, HD 118006/DMPP-7 b, HD 191122/DMPP-8 b, and HD 200133/DMPP-9 b. We update the orbital parameters of the DMPP-1, DMPP-2, and DMPP-3 systems, along with those of the planetary systems orbiting HD 181433, HD 39194, and HD 89839. We derive detection limits for all 24 targets in our sample with adequate observational coverage, and test the DMPP hypothesis by calculating the occurrence rates for planets in this configuration. We find that the occurrence rates of planets in our sample with orbital periods shorter than and masses in the range 3–10 M_⊕ are 83.0^+27.1_−24.4 per cent, for 10–30 M_⊕ are 27.0^+15.0_−11.2per cent, and for 30–100 M_⊕ are 13.9^+11.8_−7.5 per cent. This is significantly higher than the occurrence rates reported by other radial velocity surveys, providing strong support for the DMPP hypothesis.

Original language	English
Article number	stag370
Number of pages	40
Journal	Monthly Notices of the Royal Astronomical Society
Volume	547
Issue number	3
Early online date	28 Feb 2026
DOIs	https://doi.org/10.1093/mnras/stag370
Publication status	Published - Apr 2026

Keywords

techniques: radial velocities
planets and satellites: detection
software: simulations
stars: low-mass

Access to Document

10.1093/mnras/stag370Licence: Creative Commons: Attribution (CC BY)

StandingMR2026DispersedFinal published version, 12.3 MBLicence: Creative Commons: Attribution (CC BY)

Cite this

Standing, M. R., Barnes, J. R., Haswell, C. A., Stevenson, A. T., Faria, J. P., Quintin, E., Ross, Z. O. B., Fossati, L., Jenkins, J. S., Alves, D., & Staab, D. (2026). The dispersed matter planet project sample – detection limits, occurrence rates, and new planets. Monthly Notices of the Royal Astronomical Society, 547(3), Article stag370. https://doi.org/10.1093/mnras/stag370

@article{45b0b2ffcf994bd4ba2addcb8cf86c04,

title = "The dispersed matter planet project sample – detection limits, occurrence rates, and new planets",

abstract = "Dispersed matter planet project (DMPP) is a radial velocity survey that aims to detect planets around stars exhibiting anomalous activity signatures, consistent with the presence of close-in evaporating planets. Here, we report the discovery of seven new planetary signals in five different systems: DMPP-2 c \& d, HD 67200/DMPP-6 b \& c, HD 118006/DMPP-7 b, HD 191122/DMPP-8 b, and HD 200133/DMPP-9 b. We update the orbital parameters of the DMPP-1, DMPP-2, and DMPP-3 systems, along with those of the planetary systems orbiting HD 181433, HD 39194, and HD 89839. We derive detection limits for all 24 targets in our sample with adequate observational coverage, and test the DMPP hypothesis by calculating the occurrence rates for planets in this configuration. We find that the occurrence rates of planets in our sample with orbital periods shorter than and masses in the range 3–10 M⊕ are 83.0+27.1−24.4 per cent, for 10–30 M⊕ are 27.0+15.0−11.2 per cent, and for 30–100 M⊕ are 13.9+11.8−7.5 per cent. This is significantly higher than the occurrence rates reported by other radial velocity surveys, providing strong support for the DMPP hypothesis.",

keywords = "techniques: radial velocities, planets and satellites: detection, software: simulations, stars: low-mass",

author = "Standing, \{Matthew R.\} and Barnes, \{John R.\} and Haswell, \{Carole A.\} and Stevenson, \{Adam T.\} and Faria, \{Jo{\~a}o P.\} and Erwan Quintin and Ross, \{Zachary O. B.\} and Luca Fossati and Jenkins, \{James S.\} and Douglas Alves and Daniel Staab",

year = "2026",

month = apr,

doi = "10.1093/mnras/stag370",

language = "English",

volume = "547",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "SIPRI/Oxford University Press",

number = "3",

}

TY - JOUR

T1 - The dispersed matter planet project sample – detection limits, occurrence rates, and new planets

AU - Standing, Matthew R.

AU - Barnes, John R.

AU - Haswell, Carole A.

AU - Stevenson, Adam T.

AU - Faria, João P.

AU - Quintin, Erwan

AU - Ross, Zachary O. B.

AU - Fossati, Luca

AU - Jenkins, James S.

AU - Alves, Douglas

AU - Staab, Daniel

PY - 2026/4

Y1 - 2026/4

N2 - Dispersed matter planet project (DMPP) is a radial velocity survey that aims to detect planets around stars exhibiting anomalous activity signatures, consistent with the presence of close-in evaporating planets. Here, we report the discovery of seven new planetary signals in five different systems: DMPP-2 c & d, HD 67200/DMPP-6 b & c, HD 118006/DMPP-7 b, HD 191122/DMPP-8 b, and HD 200133/DMPP-9 b. We update the orbital parameters of the DMPP-1, DMPP-2, and DMPP-3 systems, along with those of the planetary systems orbiting HD 181433, HD 39194, and HD 89839. We derive detection limits for all 24 targets in our sample with adequate observational coverage, and test the DMPP hypothesis by calculating the occurrence rates for planets in this configuration. We find that the occurrence rates of planets in our sample with orbital periods shorter than and masses in the range 3–10 M⊕ are 83.0+27.1−24.4 per cent, for 10–30 M⊕ are 27.0+15.0−11.2 per cent, and for 30–100 M⊕ are 13.9+11.8−7.5 per cent. This is significantly higher than the occurrence rates reported by other radial velocity surveys, providing strong support for the DMPP hypothesis.

AB - Dispersed matter planet project (DMPP) is a radial velocity survey that aims to detect planets around stars exhibiting anomalous activity signatures, consistent with the presence of close-in evaporating planets. Here, we report the discovery of seven new planetary signals in five different systems: DMPP-2 c & d, HD 67200/DMPP-6 b & c, HD 118006/DMPP-7 b, HD 191122/DMPP-8 b, and HD 200133/DMPP-9 b. We update the orbital parameters of the DMPP-1, DMPP-2, and DMPP-3 systems, along with those of the planetary systems orbiting HD 181433, HD 39194, and HD 89839. We derive detection limits for all 24 targets in our sample with adequate observational coverage, and test the DMPP hypothesis by calculating the occurrence rates for planets in this configuration. We find that the occurrence rates of planets in our sample with orbital periods shorter than and masses in the range 3–10 M⊕ are 83.0+27.1−24.4 per cent, for 10–30 M⊕ are 27.0+15.0−11.2 per cent, and for 30–100 M⊕ are 13.9+11.8−7.5 per cent. This is significantly higher than the occurrence rates reported by other radial velocity surveys, providing strong support for the DMPP hypothesis.

KW - techniques: radial velocities

KW - planets and satellites: detection

KW - software: simulations

KW - stars: low-mass

U2 - 10.1093/mnras/stag370

DO - 10.1093/mnras/stag370

M3 - Article

SN - 0035-8711

VL - 547

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 3

M1 - stag370

ER -

The dispersed matter planet project sample – detection limits, occurrence rates, and new planets

Abstract

Keywords

Access to Document

Fingerprint

Cite this