Serif Normal Ufmuv 13 is a very light, normal width, high contrast, italic, normal x-height font.
Keywords: editorial, fashion, luxury, invitations, book covers, elegant, refined, literary, airy, elegance, editorial polish, display emphasis, calligraphic flavor, hairline, calligraphic, delicate, graceful, crisp.
A delicate italic serif with pronounced stroke contrast and a distinctly hairline feel in its thinnest parts. The letterforms lean consistently with smooth, calligraphic modulation, pairing slender entry strokes with sharper, tapered terminals. Serifs are fine and understated, often appearing as angled, pointed flicks rather than heavy brackets, creating a crisp rhythm and open counters. Capitals are narrow and poised, while the lowercase shows flowing joins and soft curves that keep word shapes continuous and light on the page.
Best suited to editorial headlines, magazine feature text, luxury branding, and elegant invitations where high contrast and italic movement can be showcased. It also works well for book covers, pull quotes, and refined packaging typography, especially when set with ample size and comfortable leading.
The overall tone is sophisticated and polished, with a quiet luxury often associated with editorial typography. Its airy contrast and graceful slant convey a cultured, romantic sensibility without becoming ornamental. The texture feels refined and composed, suited to high-end presentation where subtlety and nuance matter.
The design appears intended to deliver a contemporary, high-fashion italic voice rooted in traditional serif calligraphy. Its emphasis on thin hairlines, tapered terminals, and smooth cursive rhythm suggests a focus on elegance and display-driven typography rather than rugged everyday text settings.
The numerals follow the same italic calligraphic logic, with thin hairlines and sweeping curves that read as refined rather than utilitarian. Spacing in the samples appears generous enough to preserve clarity at display sizes, while the high contrast suggests care is needed as sizes get smaller or on low-resolution output.