Proposal ID is associated to the year of observation.
| Proposal ID |
Proposal code |
Title |
PI |
| EV-2021-02 |
N21C1 |
Network Monitoring Experiment 6cm 2048 Mbps |
JIVE |
| EV-2021-10 |
N21K1 |
Network Monitoring Experiment 1.3cm 2048 Mbps |
JIVE |
| EV-2021-15 |
N21X1 |
Network Monitoring Experiment 3.6cm 2048 Mbps |
JIVE |
| EV-2021-20 |
F21K1 |
FTP fringe test 1.3cm 2048 Mbps |
JIVE |
| EV-2021-33 |
EC077A |
Probing the nature of radio emission in Ultracool Dwarfs |
Juan B. Climent |
| EV-2021-34 |
EC077B |
Probing the nature of radio emission in Ultracool Dwarfs |
Juan B. Climent |
| EV-2021-35 |
ES099B |
Mas-scale morphology of long-lasting radio emission from a dust-enshrouded TDE |
Shu, Xinwen |
| EV-2021-37 |
EC077C |
Probing the nature of radio emission in Ultracool Dwarfs |
Juan B. Climent |
| EV-2021-38 |
EC077D |
Probing the nature of radio emission in Ultracool Dwarfs |
Juan B. Climent |
| EV-2021-47 |
EH039A |
Revisit to the nuclear region of the merging galaxy NGC 6240 |
Hagiwara |
| EV-2021-52 |
EB087 |
The aftermath of high-mass protostellar accretion bursts |
Ross A. Burns |
| EV-2021-55 |
EH039C |
Revisit to the nuclear region of the merging galaxy NGC 6240 |
Hagiwara |
| EV-2022-12 |
EM155B |
Multiresolution imaging of the innermost wisp region of the Crab Nebula |
Mueller |
| EV-2022-14 |
EB086A |
Revealing a sub-kpc-scale binary AGN |
Brooks |
| EV-2022-16 |
EB086B |
Revealing a sub-kpc-scale binary AGN |
Brooks |
| Proposal ID |
Proposal code |
Title |
PI |
| EV-2021-26 |
N21K2 |
Network Monitoring Experiment 1.3cm 2048 Mbps |
Olga Bayandina |
| EV-2021-29 |
N21C2 |
Network Monitoring Experiment 6cm 2048 Mbps |
Dhanya Nair |
| EV-2021-48 |
EG118A |
Exceptional star formation or an hidden AGN in the host of a short GRB? |
Stefano Giarratana |
| EV-2021-50 |
EW025A |
Density profiles of galaxy dark matter halos in a compact group environment |
Di Wen |
| EV-2021-53 |
ED049 |
Observation of strongly variable methanol maser cloudlets in G121.298+0.659 |
Michal Durjasz |
| EV-2022-04 |
EA065D |
Identifying the true nature of compact, steep spectrum sources |
Atri |
| EV-2022-24 |
EA065F |
Identifying the true nature of compact, steep spectrum sources |
Atri |
| EV-2022-27 |
EA065G |
Identifying the true nature of compact, steep spectrum sources |
Atri |
| EV-2022-49 |
EA065H |
Identifying the true nature of compact, steep spectrum sources |
Atri |
| EV-2022-50 |
EA065I |
Identifying the true nature of compact, steep spectrum sources |
Atri |
| EV-2022-66 |
EB092A |
The collimation region in nearby Radio Galaxies |
Baczko |
| EV-2022-67 |
EB092B |
The collimation region in nearby Radio Galaxies |
Baczko |
| EV-2022-74 |
EB092C |
The collimation region in nearby Radio Galaxies |
Baczko |
| EV-2022-75 |
EB092D |
The collimation region in nearby Radio Galaxies |
Baczko |
| EV-2022-78 |
EB092E |
The collimation region in nearby Radio Galaxies |
Baczko |
| EV-2022-80 |
EB092F |
The collimation region in nearby Radio Galaxies |
Baczko |
| EV-2022-84 |
EA065J |
Identifying the true nature of compact, steep spectrum sources |
Atri |
| EV-2023-06 |
ES103H |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| Proposal ID |
Proposal code |
Title |
PI |
| EV-2021-46 |
N21C3 |
Network Monitoring Experiment 6cm 2048 Mbps |
Benito Marcote |
| EV-2021-51 |
N21M1 |
Network Monitoring Experiment 5cm 2048 Mbps |
Olga Bayandina |
| EV-2021-54 |
N21X2 |
Network Monitoring Experiment 3.6cm 2048 Mbps |
Benito Marcote |
| EV-2021-57 |
N21K3 |
Network Monitoring Experiment 1.3cm 2048 Mbps |
Dhanya Nair |
| EV-2021-59 |
N21Q1 |
Network Monitoring Experiment 0.7cm 2048 Mbps |
Dhanya Nair |
| EV-2022-01 |
EC082A |
The Origin of Radio Emission in a Complete Sample of Nearby LLAGNs |
Cheng |
| EV-2022-03 |
EY039 |
A disc-jet coupling in the smallest AGN? |
Yang |
| EV-2022-05 |
EN011A |
Are blazar jets associated with IceCube neutrinos? |
Nanci |
| EV-2022-06 |
EC082B |
The Origin of Radio Emission in a Complete Sample of Nearby LLAGNs |
Cheng |
| EV-2022-07 |
N22C1 |
Network Monitoring Experiment |
JIVE |
| EV-2022-08 |
ET048A |
Imaging extragalactic radio sources with extremely large radio-optical offsets |
Titov |
| EV-2022-09 |
ET048B |
Imaging extragalactic radio sources with extremely large radio-optical offsets |
Titov |
| EV-2022-11 |
EC083A |
The extreme case of very ultracool fast rotators and binary systems |
Climent Oliver |
| EV-2022-13 |
EO019 |
Resolving the stellar wind of lambda And; a RS CVn binary system |
O’Fionnagain |
| EV-2022-15 |
EC083B |
The extreme case of very ultracool fast rotators and binary systems |
Climent Oliver |
| EV-2022-17 |
EC083C |
The extreme case of very ultracool fast rotators and binary systems |
Climent Oliver |
| EV-2022-18 |
ET048C |
Imaging extragalactic radio sources with extremely large radio-optical offsets |
Titov |
| EV-2022-20 |
EC083D |
The extreme case of very ultracool fast rotators and binary systems |
Climent Oliver |
| EV-2022-26 |
EC082C |
The Origin of Radio Emission in a Complete Sample of Nearby LLAGNs |
Cheng |
| EV-2022-28 |
EM162A |
The research of FR0 radio galaxies at scales from parsec to sub kpc |
Mikhailov |
| EV-2022-29 |
EC082D |
The Origin of Radio Emission in a Complete Sample of Nearby LLAGNs |
Cheng |
| EV-2022-48 |
EN011B |
Are blazar jets associated with IceCube neutrinos? |
Nanci |
| EV-2022-51 |
EC082E |
The Origin of Radio Emission in a Complete Sample of Nearby LLAGNs |
Cheng |
| EV-2022-58 |
ES103A |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2022-59 |
ES103B |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2022-60 |
ES103C |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2022-69 |
EP124A |
Arp 299: From the detection of nuclear transients to testing TDE jet physics |
Perez-Torres |
| EV-2022-71 |
ES103D |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2022-72 |
ES103E |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2022-73 |
ES103F |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2022-76 |
EP124C |
Arp 299: From the detection of nuclear transients to testing TDE jet physics |
Perez-Torres |
| EV-2022-86 |
EC082F |
The Origin of Radio Emission in a Complete Sample of Nearby LLAGNs |
Cheng |
| EV-2022-87 |
EN011C |
Are blazar jets associated with IceCube neutrinos? |
Nanci |
| EV-2023-03 |
ES103G |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2023-07 |
GV028A |
Global VLBI observations of the starburst galaxy Arp 220 |
Varenius |
| EV-2023-09 |
EO019B |
Resolving the stellar wind of lambda And; a RS CVn binary system |
O’Fionnagain |
| EV-2023-12 |
ES103I |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2023-13 |
ES103J |
Confirmation of close dual quasars at z=0.6-2.5 |
Shu |
| EV-2023-14 |
GV028B |
Global VLBI observations of the starburst galaxy Arp 220 |
Varenius |
| EV-2023-40 |
EN011D |
Are blazar jets associated with IceCube neutrinos? |
Nanci |