It's time for the Clarke/Lexa reunion The 100 fans have been waiting for.

Lexa's (Alycia Debnam-Carey) death ripped through the impassioned fandom with all the force of an F5 tornado, but fans of the Heda will get a chance to see the heroine in action when the season 3 finale hits screens. While Clarke (Eliza Taylor) and Lexa will come face to face when the Wanheda dives into the City of Light, their meeting might not be quite what viewers are expecting. In true 100 fashion, there's no telling how their story will play out.

"I'm sure people can gather how she's in the finale but I really do not want to spoil that one to any extent," Taylor told IGN. "What I'm very happy about is how important that is for other people and fans to see the two of us together again. It's going to be a pretty unexpected way."

Clexa fans will be happy to hear, however, that the pair will share an "intimate" moment. The announcement comes as no surprise, particularly since set photos from the filming of the finale showed the couple running through the sleek streets of ALIE's sinister creation. The 100 used downtown Vancouver as the backdrop for the City of Light, and, unlike the series' forested shoots, these scenes took place in full view of passersby.

"I had no idea, going into shooting downtown for three days or whatever it was, how quickly people would catch on to the fact that me and Alycia were shooting intimate scenes in the city center," Taylor recounted. "Within an hour we had fans -- like twenty to thirty fans -- with banners and signs and flags and pictures to sign."

With ALIE's entire minion army hell-bent on ousting Clarke from their carefree home, the Arker will need all the help she can get if she wants to unplug Becca's monster once and for all. Considering Lexa isn't hooked in to ALIE's program, perhaps she'll become the saving grace the 100 are looking for.

Find out more when The 100 airs Thursdays at 9 p.m. ET on The CW. Click the video below to see a preview for the season 3 finale, "Perverse Instantiation: Part 2."