Quadruple jump
A quadruple jump, also known as a quad, is a figure skating element in which a skater launches from the ice, completes four full revolutions in the air while traveling forward, and lands on a single skate's outside edge or toe pick.[1] These jumps are among the most technically demanding maneuvers in the sport, requiring exceptional rotational speed, aerial control, and precise landing to avoid falls or under-rotation penalties under the International Skating Union (ISU) judging system. Quadruple jumps significantly boost a skater's score due to their high base value—ranging from 9.3 to 12.3 points depending on the type—making them a key strategy for competitive advantage in both short programs and free skates. There are six recognized types of quadruple jumps, categorized by takeoff and edge usage: the toe loop (toe-assisted, backward takeoff), Salchow (inside edge, backward takeoff), loop (outside edge, backward takeoff), flip (toe-assisted, backward inside edge takeoff), Lutz (toe-assisted, backward outside edge takeoff), and Axel (forward takeoff, requiring 4.5 rotations to equate to a quad).[2] The quad toe loop and Salchow are the most commonly attempted due to their relative mechanical simplicity, while the quad Axel remains the rarest and most difficult, as its forward entry demands extra half-rotation.[1] In ISU competitions, jumps must be fully rotated (demonstrating at least 4.0 revolutions for non-Axel quads) and landed cleanly to receive full credit, with under-rotations incurring deductions. The history of the quadruple jump began in the late 1980s, with Canadian skater Kurt Browning landing the first ratified quad toe loop at the 1988 ISU World Figure Skating Championships in Budapest, Hungary, revolutionizing men's singles by elevating technical standards.[3] Subsequent milestones included American Timothy Goebel's first quad Salchow in 1998 and the first quad-triple combination by Canada's Elvis Stojko in 1997, with modern male skaters like Japan's Yuzuru Hanyu and American Ilia Malinin routinely incorporating four or more quads per program.[4] In women's figure skating, Japanese skater Miki Ando achieved the first ratified female quad Salchow at the 2002 ISU Junior Grand Prix Final in The Hague, Netherlands, marking a breakthrough after earlier attempts like those by France's Surya Bonaly in the 1990s.[5] The quad revolution in women's events accelerated in the 2010s, led by Russian skaters such as Alexandra Trusova, who became the first woman to land a triple-quad combination in 2019, and Kamila Valieva, who executed the first Olympic quad Salchow in 2022 during the Beijing Winter Games team event.[6] By 2025, quads have become more prevalent among elite women, with American Alysa Liu landing a quad Lutz and triple Axel in the same program en route to her World Championship title. Today, quadruple jumps define elite competition, with men often attempting all six types—exemplified by Ilia Malinin's historic landing of the first quad Axel in September 2022 at the U.S. International Figure Skating Classic, followed by his completion of all six quads in a single program at the 2025 World Championships.[7][8] In women's skating, athletes like Trusova and Liu have pushed boundaries with multiple quads in programs, influencing program design and sparking debates on athlete welfare and judging equity, though physiological differences limit universality compared to men.[9] Advances in biomechanics, such as tighter spin positions and optimized air time (typically 0.6–0.7 seconds for quads), have enabled these feats, with quintuple jumps emerging as the next frontier following ISU recognition in 2024.[10][11] Injury risks from high-impact landings continue to be a concern in the sport.Fundamentals
Definition and Significance
A quadruple jump is an aerial maneuver in figure skating where the skater completes four full rotations, totaling 1440 degrees, while airborne before landing on a single foot, with the airborne partner in pairs throw jumps landing unassisted on the ice.[1] Performed in singles and pairs disciplines, these jumps must adhere to International Skating Union (ISU) regulations, which classify them as advanced elements requiring precise takeoff, rotation, and landing to earn full credit. Quadruple jumps fall into two primary categories based on takeoff mechanics: toe-assisted jumps, which use the toe pick of the skate blade to initiate lift (such as the toe loop, flip, and Lutz), and edge-assisted jumps, which rely solely on the blade's edge for propulsion (such as the Salchow, loop, and Axel).[12] This distinction underscores the technical diversity within quadruple jumps, building on foundational double and triple rotations that dominated earlier eras. Emerging in the late 20th century, quadruple jumps marked a significant evolution from double (720 degrees) and triple (1080 degrees) jumps, representing a technical pinnacle as skaters pushed the boundaries of aerial rotation in competitive programs.[13] Their introduction reflected broader advancements in training and biomechanics, transforming figure skating into a sport emphasizing greater rotational demands.[14] As the zenith of jumping difficulty, quadruple jumps profoundly influence program design by prioritizing high-value elements, necessitate specialized off-ice training regimens to build power and endurance, and define success at Olympic-level competitions where they can determine medal outcomes.[15] Under the ISU Judging System (IJS), implemented in 2004 to replace the ordinal-based 6.0 system, quadruple jumps yield substantially higher base values—often exceeding 10 points—rewarding their execution while penalizing underrotations or falls, thus elevating overall competitive standards.[16]Types of Quadruple Jumps
In figure skating, the International Skating Union (ISU) recognizes six types of quadruple jumps, each distinguished by their takeoff mechanics and edge usage. These jumps are categorized into toe-assisted jumps, which involve the use of the toe pick for propulsion, and edge jumps, which rely solely on the blade's edge. The quadruple toe loop is a toe-assisted jump with takeoff from the backward outside edge of the skating foot, assisted by the toe pick of the free foot, allowing the skater to rotate four times in the air before landing on the backward outside edge.[1][17] The quadruple Salchow is an edge jump initiated from the backward inside edge, with the skater generating rotation through knee bend and free leg swing, landing on the backward outside edge after four revolutions.[17][18] In contrast, the quadruple loop is an edge jump from the backward outside edge, with the free leg crossing over the skating foot for added torque, also landing on the backward outside edge.[17][18] Toe-assisted jumps also include the quadruple flip, which takes off from the backward inside edge using the toe pick on the non-skating foot, landing on the backward outside edge, and the quadruple Lutz, a similar toe-assisted jump from the backward outside edge but with a pronounced counter-rotation in the upper body for distinction.[1][17] The quadruple Axel stands apart as an edge jump with a forward outside edge takeoff, requiring the skater to complete four and a half revolutions—equivalent to 1,620 degrees of rotation—to land on the backward outside edge, making it uniquely challenging due to the extra half-rotation compared to the other five types, which involve exactly four revolutions (1,440 degrees).[19][18] Among these, the quadruple Axel is widely regarded as the most difficult due to its forward takeoff and additional rotational demand, which increases air time requirements and demands exceptional height and speed.[19][20] Conversely, the quadruple toe loop is considered the easiest for initiating combinations because its takeoff edge allows seamless linkage to subsequent jumps without changing direction or edge significantly.[21] Quadruple jumps are frequently incorporated into free programs as combinations, such as a quadruple toe loop followed by a triple toe loop, to maximize scoring through bonus points for multi-jump elements.[21] In pairs skating, variations like throw quadruple jumps—where one partner launches the other into a quadruple rotation—extend these mechanics, often using the toe loop or Salchow for their relative accessibility in assisted takeoffs.[1]Historical Development
Milestones in Men's Singles
The introduction of quadruple jumps to men's singles figure skating marked a significant technical advancement, beginning with Kurt Browning of Canada landing the first ratified quadruple toe loop in the free skate at the 1988 World Figure Skating Championships in Budapest, Hungary. This achievement, performed under international competition rules, set a new benchmark for rotational difficulty and propelled the sport toward greater athleticism.[22] Early adopters expanded the repertoire of quadruple jumps in the following decade. Petr Barna of Czechoslovakia became the second man to land a quadruple toe loop in major competition in 1989 and the first to execute one at the Olympic Games in 1992 at Albertville, France. In 1998, Timothy Goebel of the United States achieved the first ratified quadruple Salchow during the free skate at the ISU Junior Grand Prix Final in Lausanne, Switzerland, also landing the first quadruple Salchow-double toe combination. The quadruple loop proved more elusive, with Alexei Urmanov of Russia attempting it in the early 1990s before Yuzuru Hanyu of Japan landed the first ratified version in 2016 at the Autumn Classic International.[23][24][25] In the modern era, technical complexity escalated with combinations and rarer jump types. Yuzuru Hanyu pioneered the first quadruple Salchow-triple toe loop combination in the short program at the 2015 NHK Trophy in Osaka, Japan, enhancing scoring potential under the International Skating Union (ISU) system. Ilia Malinin of the United States further revolutionized the discipline by landing the first ratified quadruple Axel—requiring four and a half rotations—in the free skate at the 2022 Skate America in Las Vegas, Nevada. Malinin continued this progression by attempting seven quadruple jumps in the free skate at the 2025 U.S. Figure Skating Championships in Greensboro, North Carolina, and successfully landing all six types of quads among his six landed quads in the free skate at the 2025 World Figure Skating Championships in Boston, Massachusetts. Following Worlds, Malinin continued his dominance by setting a world record free skate score with five quads at the 2025 Skate Canada International in November.[26][27][28][29][30] Key records underscore the evolution's impact. Malinin holds the mark for the most quadruple jumps in a single competitive program with six landed in the 2025 World Championships free skate, surpassing previous benchmarks set by skaters like Hanyu and Shoma Uno of Japan. Top competitors like Uno have amassed over 100 landed quads across their careers, reflecting sustained high-level execution.[29][31] Overall trends illustrate a rapid shift: programs in the 1990s rarely exceeded one quadruple jump, but by the 2020s, landing multiple quads became the norm for elite male singles skaters, with more than 100 competitors having attempted them in international events by 2023. This proliferation, driven by advancements in training and judging emphasis on technical elements, has transformed competitive programs into displays of exceptional power and precision.[32][31]Achievements in Women's Singles
The adoption of quadruple jumps in women's singles figure skating lagged behind men's due to physiological differences, including women's generally lower center of gravity, reduced upper-body strength relative to body mass, and the impact of puberty on rotational power and body composition, which make generating sufficient airtime and torque for four revolutions more challenging.[33][14] These barriers contributed to a delayed timeline, with women only beginning to ratify quads at elite levels in the early 2000s, compared to men's milestones in the 1980s.[34] The first ratified quadruple jump by a woman in competition was a Salchow by Miki Ando of Japan at the 2002 ISU Junior Grand Prix Final in The Hague, Netherlands, when she was 14 years old.[5] Ando, who went on to become a two-time world champion, performed the element cleanly to secure a bronze medal, marking a pioneering moment that highlighted the feasibility of quads for female skaters despite the technical demands. A breakthrough era emerged in the late 2010s, driven by Russian skaters training under innovative coaches, with Alexandra Trusova landing the first ratified quadruple toe loop by a woman at the 2018 ISU Junior Grand Prix in Lithuania at age 13.[35] This sparked a surge, exemplified by Trusova's three quads (Lutz, flip, toe loop) in her free skate at the 2021 ISU World Championships in Stockholm, where she earned bronze overall with a total score of 217.20 points.[36] In the same season, Trusova set the record for the most quads by a woman in a single program, landing five (two Lutzes, two toe loops, one Salchow) during the Russian national test skates in September 2021.[37] Kamila Valieva, also 15, became the first woman to land a quad at the Olympic Winter Games with a Salchow in the team event free skate at Beijing 2022, contributing to her team's gold medal.[38] Anna Shcherbakova further advanced the field by becoming the first woman to land a quadruple Lutz in senior competition at the 2019 ISU Grand Prix Skate America, and later two in one program. By 2024, at least 39 women had successfully landed a quadruple jump in international or domestic competition, reflecting accelerated training methods and rule changes favoring technical difficulty.[39] In recent developments, American skater Alysa Liu incorporated quads into her programs en route to winning the 2025 ISU World Championships in Boston, Massachusetts, becoming the first U.S. woman to claim the title in 19 years with a gold-medal performance that included quadruple jumps and a triple Axel. Post-Worlds, Liu won her first Grand Prix title at the 2025 Skate America in November.[40][41] This milestone underscores the ongoing evolution, as more skaters overcome historical barriers to integrate quads routinely into high-level routines.Evolution in Pairs Skating
The integration of quadruple jumps into pairs skating began with experimental attempts in the early 2000s, distinct from singles due to the collaborative dynamics of throws and synchronized side-by-side elements. Chinese pairs Shen Xue and Zhao Hongbo made the first notable attempt at a throw quadruple Salchow during the 2002 Winter Olympics free skate, where Xue landed the rotation but fell upon catching, marking an ambitious step toward higher difficulty in the discipline. This effort highlighted the unique challenges of pairs, where the male partner must generate sufficient lift and rotational speed while ensuring a safe catch, contrasting with the individual control required in singles. The first ratified successful throw quadruple Salchow in international competition came from American pairs Tiffany Vise and Derek Trent at the 2007 Trophée Eric Bompard, a breakthrough that elevated technical standards and inspired subsequent innovations.[42] Russian pairs Yuko Kavaguti and Alexander Smirnov followed with another clean throw quadruple Salchow at the 2008 European Championships, and later the same season, they became the first to include two throw quads (Salchow and loop) in a single program at the World Championships.[43] These achievements underscored the lift-and-catch mechanics central to throw quads, demanding precise timing and strength from the lifter to propel the jumper into four full rotations while maintaining balance for the reception. Side-by-side quadruple jumps, requiring near-perfect synchronization in takeoff, rotation, and landing, proved even rarer due to the heightened coordination demands compared to throws. Early attempts, such as those by Russian pairs Evgenia Tarasova and Vladimir Morozov with side-by-side quadruple Salchows at the 2018 World Championships, were often under-rotated or downgraded, illustrating the synchronization barriers that make such elements less common than in singles.[44] By the mid-2010s, throw quads peaked in usage, with five of the top seven pairs attempting quad elements (including throws and twists) at the 2015 World Championships, reflecting a trend toward greater technical risk.[44] In the 2020s, the prevalence of quadruple jumps in pairs waned due to International Skating Union scoring adjustments that reduced the base value differential between triple and quadruple throws—such as the throw quadruple Salchow dropping from a more rewarding margin—encouraging cleaner executions over higher-risk elements.[44] Canadian pairs Meagan Duhamel and Eric Radford exemplified the era's push, landing a throw quadruple Salchow at the 2014 Skate Canada International, one of the most consistent such elements before the shift.[45] By 2023, approximately 20 pairs had successfully landed throw quads in competition, though side-by-side quads remained exceptional, with fewer than a handful of verified clean executions globally.[46] This evolution from 1990s experimentation to a 2010s standard for elite pairs, followed by a focus on reliability by 2025, emphasizes pairs' team-based precision over sheer rotation count.Technical Execution
Takeoff and Preparation
The preparation phase for a quadruple jump begins with building speed along an entry curve, where the skater reduces the curve's radius to generate centrifugal force and momentum essential for takeoff. This entry typically involves a backward outside edge, with the skater leaning inward to maintain balance while accelerating to speeds that can exceed 20 km/h, optimizing the transition to the launch. Arm swing plays a crucial role in this buildup, as the skater pulls the arms across the body to create initial torque and contribute approximately 3% to the vertical momentum at takeoff, enhancing overall rotational momentum. Simultaneously, a deep knee bend—often reaching 115-140 degrees of flexion—stores elastic energy in the lower limbs, setting up the explosive extension needed for propulsion. Takeoff mechanics vary by jump category but aim to achieve sufficient height of 0.4-0.6 meters and air time of 0.6-0.7 seconds to complete four rotations. In toe jumps, such as the toe loop, the skater picks the ice with the toe pick of the non-landing foot while on a backward outside edge, using the vaulting action to initiate rotation with minimal additional edge pressure. For edge jumps, like the loop or Salchow, the skater pushes off the required edge—inside for the loop or outside for the Salchow—relying on precise leg extension and hip alignment to generate vertical lift without toe assistance. Key factors include maximizing centrifugal force from the entry curve to counterbalance the inward lean and minimizing pre-rotation to under 0.5 rotations (typically 90-180 degrees) on the ice, as excessive pre-rotation reduces air time and risks under-rotation penalties under International Skating Union rules. Execution may vary by gender, with female skaters typically achieving slightly lower heights (0.4-0.5 m) due to physiological differences. Differences in takeoff execution are pronounced between types like the toe loop and loop. The toe loop demands less edge control, allowing a more straightforward pick and swing of the free leg for quicker initiation, which suits combination jumps. In contrast, the loop requires a tighter entry curve and greater edge pressure on the backward inside edge during takeoff, emphasizing core stability and precise weight distribution to avoid flatting the edge.Airborne Rotation
During the airborne phase of a quadruple jump, skaters must optimize their body position to maximize rotational speed while maintaining stability. The core configuration involves pulling the free leg tightly toward the chest and crossing the arms over the torso, forming a compact "pistol" curl that significantly reduces the moment of inertia around the body's longitudinal axis. This tight positioning allows the skater to counteract centrifugal forces—up to 180 pounds for a 150-pound athlete—and achieve the rapid spin necessary for four full revolutions. The physics governing this rotation is rooted in the conservation of angular momentum, a principle where the initial angular momentum imparted at takeoff remains constant throughout the flight unless external torques act upon it. Skaters generate this momentum primarily through hip and shoulder pre-rotation on the ice, typically 90-180 degrees (0.25-0.5 revolutions) before leaving the surface, which accounts for a portion of the total rotations and leaves the remaining 3.5-3.75 revolutions to be executed in the air. By contracting into the tight position immediately after takeoff, the decreased moment of inertia causes an increase in angular velocity, enabling rotation speeds of approximately 1,800 to 2,000 degrees per second during the flight phase. Key challenges in this phase include preserving precise axis alignment to prevent wobbling or tilting, which can dissipate rotational energy and lead to under-rotation. Any deviation from a vertical axis—often caused by imperfect takeoff alignment—amplifies in the air due to the high speeds involved, making corrections impossible mid-flight. Quadruple jumps demand higher entry speeds, typically exceeding 24 km/h compared to triples, to generate sufficient vertical lift and horizontal momentum for the extended air time of about 0.6 to 0.7 seconds; this requires meticulous timing to ensure the four rotations conclude exactly on the landing edge without over-rotation.Landing and Control
The landing phase of a quadruple jump requires precise placement of the free foot on the backward outside edge of the landing foot to maintain stability and execute a clean one-footed arrival. This positioning allows the skater to absorb the significant impact forces generated upon ice contact, which can reach up to 8-10 times the skater's body weight, primarily through controlled flexion of the knees and hips to dissipate energy and prevent injury. Greater knee and hip flexion ranges are observed in quadruple jumps compared to less demanding ones, highlighting the increased demand for joint compliance during this phase. To ensure balance and halt excess rotation, skaters extend their arms outward upon landing for counterbalance and check the spin by turning the head toward the direction of travel, directing gaze forward. Achieving full rotation—defined as four complete revolutions—is confirmed when the arms are pulled down into a streamlined position before the initial touchdown, allowing judges to verify completion without under-rotation. Common errors in landing include the two-foot landing, where weight is transferred to both feet, resulting in a downgrade and reduced base value due to insufficient control. Under-rotation occurs when fewer than four full turns are completed, marked by a "<" symbol for more than ¼ but less than one-half revolution missing (reducing base value per Scale of Values and GOE penalties) or "<<" if one-half or more is missing (downgrading the jump to triple value). Effective landing control facilitates seamless integration into the program, enabling immediate flow into subsequent elements such as spins, footwork sequences, or combination jumps, where the landing foot becomes the takeoff foot for the next maneuver without interruption.Judging and Scoring
ISU Regulations
The International Skating Union (ISU) governs quadruple jumps through its Special Regulations and Technical Rules for Single and Pair Skating, which outline eligibility, execution standards, and integration into competition programs.[47] Quadruple jumps are classified as advanced elements under the ISU Judging System, with base values determined annually in the Scale of Values; for the 2025-26 season, they range from 9.50 for a quadruple toe loop to 12.50 for a quadruple Axel, reflecting their technical difficulty without assigning levels like those for spins or steps. In senior singles competitions, quadruple jumps are optional but integral to achieving competitive scores, particularly in men's events where they are frequently attempted to fulfill high-revolution requirements in both short programs and free skates.[48] Validation of quadruple jumps requires full aerial rotation—specifically 4.0 revolutions for non-Axel quads and 4.5 for the quadruple Axel—completed before touchdown, with a clean landing on the intended edge without support from the free leg, hand, or any two-footed contact. Any deviation, such as under-rotation (marked <, indicating 90-180 degrees short of full rotation), edge faults (! or e), or touches, results in the jump being credited at a lower value or invalidated entirely, per Rule 610.[47] In pairs skating, side-by-side quadruple jumps must be performed synchronously with identical takeoff and landing edges, while thrown quadruple jumps involve one partner launching the other for four revolutions, both requiring the same clean execution criteria to avoid deductions.[47] Program limits emphasize balance and progression, with the short program restricting jumps to three elements: two solo jumps and one combination. For senior men, these may include a quadruple as a solo or in the combination (e.g., quadruple-triple), while for women, a quadruple can substitute for a triple but is not mandatory.[48] The 2018 amendments to Rule 612 introduced limits in the free skate, allowing a maximum of seven jump passes (six from the 2026-27 season onward), where only two types of triple or quadruple jumps may be repeated, and only one such repetition can be a quadruple; this builds on the longstanding Zayak rule (Rule 612, Paragraph 2), which permits no jump type to be executed more than twice overall unless in combinations.[49] No specific cap on total quadruple attempts exists beyond these repetition constraints, though programs must incorporate an Axel-type jump and up to three combinations or sequences for optimal scoring. For the 2025-26 season, the ISU Technical Panel Handbook reinforces these frameworks with clarifications on combinations, allowing a different quadruple as a solo jump if one is used in a combination, to encourage variety without violating repetition rules.[50] Additionally, Grade of Execution (GOE) assessments for quadruple combinations receive bonuses for features like difficult transitions and precise synchronization, with up to +5 GOE possible for exceptional quality, though errors in rotation or landing reduce this scale.[50] In pairs, these updates similarly prioritize identical execution in side-by-side quads for full credit, aligning with broader efforts to standardize validation across disciplines.[47]Value Assessment and Deductions
In the International Skating Union (ISU) Judging System, the value of quadruple jumps is determined by their base value (BV), which varies by jump type to account for technical difficulty, plus adjustments from grade of execution (GOE), program location bonuses, and deductions for errors.[51] The 2025-26 Scale of Values assigns the following base values to quadruple jumps in singles skating:| Jump Type | Abbreviation | Base Value (points) |
|---|---|---|
| Quad toe loop | 4T | 9.50 |
| Quad Salchow | 4S | 9.70 |
| Quad flip | 4F | 11.00 |
| Quad Lutz | 4Lz | 11.50 |
| Quad loop | 4Lo | 10.50 |
| Quad Axel | 4A | 12.50 |