This study aims to investigate the virome of Asgard Archaea (Asgardarchaeota), a recently discovered group that has intrigued the scientific community due to its close evolutionary relationship to eukaryotes. Previous studies on the Asgard archaeal virome relied on host prediction through CRISPR spacers encoded by the host. However, this method is limited as it relies on the virus being successfully targeted by their CRISPR immune-system, and on the correct assembly and binning of CRISPR loci. Thus, some viruses present could potentially not be assigned to a host. To address this gap, we conducted for the first time, proximity-ligation-based (Hi-C) sequencing to empirically determine host-virus genome linkages in Asgardarchaeota enrichment cultures. Hi-C overcomes the reliance on CRISPR spacer matching and resulted in the recovery of high-quality, near-complete Asgardarchaeota MAGs with linkages to viruses, validating our host associations originally established with shotgun metagenomics. Additionally, Hi-C sequencing allowed for the identification of host-virus relationships undetected via traditional metagenomics methods. In fact, novel virus lineages were discovered after clustering the viral proteins to reference databases using vContact2. Here, Hi-C sequencing successfully expanded knowledge of the diversity of the Asgard Archaeal virome, enhancing our understanding of archaeal viruses and their potential ecological and evolutionary roles. Ongoing work includes fluorescent in situ hybridization on the enrichment cultures to visualize Asgards and their novel viruses, promising additional insights into the secrets of the Asgard Archaeal virosphere.